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TWI373924B - Apparatuses and methods that facilitate the transfer of power and information among electrical devices - Google Patents

Apparatuses and methods that facilitate the transfer of power and information among electrical devices Download PDF

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Publication number
TWI373924B
TWI373924B TW097100438A TW97100438A TWI373924B TW I373924 B TWI373924 B TW I373924B TW 097100438 A TW097100438 A TW 097100438A TW 97100438 A TW97100438 A TW 97100438A TW I373924 B TWI373924 B TW I373924B
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Taiwan
Prior art keywords
coupled
microcontroller
connector
power
port
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TW097100438A
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Chinese (zh)
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TW200845601A (en
Inventor
Stanley Rabu
Nicholas R Kalayjian
Jesse L Dorogusker
Jeff Terlizzi
Emery A Sanford
M Evans Hankey
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Apple Inc
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Publication of TW200845601A publication Critical patent/TW200845601A/en
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Publication of TWI373924B publication Critical patent/TWI373924B/en

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements
    • G06F1/1613Constructional details or arrangements for portable computers
    • G06F1/1632External expansion units, e.g. docking stations
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/26Power supply means, e.g. regulation thereof
    • G06F1/266Arrangements to supply power to external peripherals either directly from the computer or under computer control, e.g. supply of power through the communication port, computer controlled power-strips
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/0042Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries characterised by the mechanical construction
    • H02J7/0044Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries characterised by the mechanical construction specially adapted for holding portable devices containing batteries
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J2207/00Indexing scheme relating to details of circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J2207/30Charge provided using DC bus or data bus of a computer
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/00032Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries characterised by data exchange
    • H02J7/00034Charger exchanging data with an electronic device, i.e. telephone, whose internal battery is under charge

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  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Computer Hardware Design (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Human Computer Interaction (AREA)
  • Power Engineering (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)
  • Telephone Function (AREA)

Description

1373924 九、發明說明: 【發明所屬之技術領域】 及資訊。更特定 其他電氣器件之 本發明係關於在電氣器件之間傳送電力 言之,本發明使得自一電氣器件至至少一 電力及資訊傳送更加便利。 【先前技術】1373924 IX. Description of invention: [Technical field to which the invention belongs] and information. More specifically other electrical devices The present invention relates to the transfer of electrical power between electrical devices. The present invention facilitates the transfer of electrical equipment and at least one power and information. [Prior Art]

可攜帶式電氣器件在當今社會成為曰常生活之—部分。 其中,諸如⑽、PDA及蜂巢式電話之可攜帶式電=件 提供娛樂、改良生產率且使得能夠進行通信。一些器件可 用於向m件提供額外功能性^舉例而t,蜂巢式電話 可使膝上型電腦能夠存取網際網路。其他電氣器件經特定 设計成為增強器件功能性之附屬器件。舉例而言無線藍 芽耳機藉由允許使用者經由其蜂巢式電話進行免提=無線 會話而增強蜂巢式電話之使用。 結果,許多人通常隨身攜帶許多個人電氣器件。對人們 來說,當其離開家時,攜帶蜂巢式電話、無線耳機及諸如 Apple公司的iPod之數位媒體器件係很常見的。 大多數可攜帶式電氣器件可由可再充電電池供電。不管 電池技術如何先進’許多使用者通常希望其可攜帶式器件 :之電池能維持較長時間。另一問題在於,每一可攜帶式 器件*具有其自身之必須四處攜帶的充電器。大多數使用 者不可避免地會遇到—器件有電,而此刻所需要的器件卻 沒電之情境。若使用者無正確的充電器可用,則該使用者 運氣不佳。 128157.doc 1373924 除了四處攜帶較多電氣器件以外,電氣器件正變得命加 複雜,此給使用者帶來諸多不便。舉例而t,現可使用多 個不同的有線或無線標準及/或協定將許多不同類型的可 攜帶式電氣器件鏈接在一起。此等標準及/或協定中之一 些(諸如藍芽標準)要求使用者每當使用器件與新器件通信 時對器件進行重新組態(通常稱為·,配對”)。舉例而言,组 態可能要求該等器件中之至少一者以某方式被另一器件所 識別。舉例而言,涵用漆伙势知Portable electrical devices have become part of everyday life in today's society. Among them, portable electronic devices such as (10), PDAs, and cellular phones provide entertainment, improve productivity, and enable communication. Some devices can be used to provide additional functionality to m-pieces. For example, a cellular phone can enable a laptop to access the Internet. Other electrical devices are specifically designed to be an add-on to enhance device functionality. For example, wireless Bluetooth headsets enhance the use of cellular phones by allowing users to perform hands-free = wireless sessions via their cellular phones. As a result, many people often carry many personal electrical devices with them. For people, it is common to carry cellular phones, wireless headsets, and digital media devices such as Apple's iPod when they leave home. Most portable electrical devices can be powered by rechargeable batteries. No matter how advanced battery technology is, many users often want their portable devices: the battery can last for a long time. Another problem is that each portable device* has its own charger that must be carried around. Most users will inevitably encounter situations where the device has power and the device needed at the moment is powerless. If the user does not have the correct charger available, the user is not lucky. 128157.doc 1373924 In addition to carrying more electrical components around, electrical devices are becoming more complex, which is inconvenient for the user. By way of example, many different types of portable electrical devices can now be linked together using a number of different wired or wireless standards and/or protocols. Some of these standards and/or agreements (such as the Bluetooth standard) require the user to reconfigure the device (usually referred to as ", pairing") whenever the device is used to communicate with the new device. For example, configuration At least one of the devices may be required to be recognized by another device in some manner. For example, the lacquer is known

逋用遙控盗與特定電氣器件(例如, τν、電㈣等)之配對要求使用者遵循—系列步驟,該等 步驟中之-者包括輸入表示器件品牌及類型之代碼。此配 對過程為許多使用者遇到巨大挫折之原因。 【發明内容】 根據本發明之原理,本文論述可使至少兩個電氣器件之 間的電力及資訊傳送更加便利之裝置、系統、方法及電腦 可讀媒體。電氣器件中之-或多者可為可攜帶式電池操作 • 器件。在適應至少三個器件之本發明之實施例中,較佳 地’該等器件中之至少一者可接取可靠持續的電源(諸 如,壁裝電源插座)。 -· 根據本發明之原理,較佳使該等器件電耦接至裝置之 .. 埠。裝置之埠及其他組件可允許耦接至該裝置之器件中之 每一者電耦接至其他器件中之至少一者。 一旦器件(經由該裝置)電耦接至一起,該裝置之處理器 或微控制器便可使該等器件之間的資訊及/或電力傳送更 加便利。資訊傳送可(例如)允許耦接至裝置之器件中的兩 128157.doc < S ) 1373924 者根據藍芽協定而自動配對。器件之間的電力傳送可(例 如)允許至少一器件對至少一其他器件進行充電。來自器 件中之至少一者的電力亦可用於操作該裝置,及執行根據 本發明之在下文描述之方法的自動步驟。Pairing a remote control with a particular electrical device (eg, τν, electricity, etc.) requires the user to follow a series of steps, including the input of a code indicating the brand and type of the device. This pairing process is the cause of many frustrations for many users. SUMMARY OF THE INVENTION In accordance with the principles of the present invention, devices, systems, methods, and computer readable media that facilitate the transfer of power and information between at least two electrical devices are discussed herein. - or more of the electrical devices can operate for portable batteries • Devices. In an embodiment of the invention adapted to at least three devices, preferably at least one of the devices can access a reliable continuous power source (e.g., a wall outlet). - According to the principles of the present invention, the devices are preferably electrically coupled to the device. Devices and other components may allow each of the devices coupled to the device to be electrically coupled to at least one of the other devices. Once the devices are electrically coupled (via the device), the device's processor or microcontroller can facilitate the transfer of information and/or power between the devices. Information transfer can, for example, allow two 128157.doc <S) 1373924 devices in the device to be automatically paired according to the Bluetooth protocol. Power transfer between the devices can, for example, allow at least one device to charge at least one other device. Power from at least one of the devices can also be used to operate the device, and to perform the automated steps of the method described below in accordance with the present invention.

可向器件指派本發明在傳送電力至每一器件及自每一器 件傳送電力時考慮的優先級(例如,低、中等或高)^在至 v 實把例中,指派至每一器件之優先級係基於器件耦接 至哪一埠。指派有較低優先級之器件提供電力,且指派有 較咼優先級之器件接收電力。中等優先級器件在不同情境 下可接收及/或提供電力。在替代實施例中,微控制器可 回應於微控制器識別出器件之類型(與識別器件耦接至之 埠相對)而向每一器件指派優先級。 除了上述組件以外,本發明亦可使用(例如)一或多個開 關、調節器、升愿器及各種連接器(例如,單導線、多線 匯流排、節點等)。本發明之所有組件皆可由微控制器監 督及控制》 。皿 【實施方式】 本發明之以上及其他 而易見,在所有附圖 在結合附圖考慮以下詳細描述時, 特徵' 其本質及各種優點將更加顯 中,相同參考符號指代相同部分。 發明係針對可使對至少—器件之電池進行充電以及巧 型器件及平台之間的資訊傳送更加便利的裝置、系 統、方法及電腦可讀媒體。以下為可根據本發明之各 例使用的各種裝置及方法的描述。 128157.doc 1373924 圖1說明電耦接至三個器件之對接站10〇。該三個器件為 iMac 102、蜂巢式電話1〇4及無線耳機1〇6。對接站1〇〇使 得能夠在器件之間交換資訊及電力。在至少一實施例中, 對接站100在將電力傳送至每一器件或自每一器件傳送電 力之前與每一器件通信,對每一器件進行識別及驗證。對 接站100亦可用於使器件之間的額外資訊傳送更加便利。 雖然下文描述之本發明大體係關於可攜帶式電池供電器 件’但iMac 102為自電源線接收電力且不需要電池之線路 供電器件。線路供電器件之其他實例包括自(例如)太陽電 池板、發電機或電池以外的任何構件接收電力的器件。 蜂巢式電話104及無線耳機1〇6為可攜帶式電池供電器 件°本文提及之電池供電器件包括具有自含式電池或自位 於器件外部的電池獲取電力的器件。對接站i 〇〇可(例如)使 以來自蜂巢式電話104之電池的電力來對無線耳機1〇6之電 池進行充電更加便利。類似地,來自iMac 1 〇2之電力可用 於對蜂巢式電話104及/或無線耳機1〇6進行充電》在一些 實知例中’無線耳機106與在共同讓渡的於__申請之 名為"Wireless Headset”之美國臨時專利申請案第 號 (客戶棺案號碼P4672P1)(下文中稱為"P4672P1申請案")及 於---申请之名為 Connector with Magnetic Detent"的美 國臨時專利申請案第-號(客戶檔案號碼P4672P2)(下文 中稱為"P4672P2申請案")中所論述的無線耳機相同或實質 上類似,該等申請案之全文以引用之翻方式併入本文令。 圖1所示之組態僅說明可實施本發明之一種方式。在 128157.doc 1373924 P4672P1申請案中論述了可用於自一電子器件(諸如蜂巢式 電話)向另一電子附件(諸如無線耳機)充電及傳送資訊之對 接系統的額外配置。本發明之許多其他可能組態對於得益 於本文包含的揭示内容之熟習此項技術者而言將顯而易 見。因此,與圖1類似,圖2至圖15之描述應理解為說明性 而非限制性的。 圖2為位於裝置200内之電路的簡化示意方塊圖。在一些 實施例中,裝置200與圖1之對接站100實質上類似。通常 (但不必)使用單個積體電路來實施裝置200。或者,可(例 如)使用包括兩個或兩個以上單獨的積體電路之多晶片模 組來實施裝置200。 裝置200可包括使得器件2〇8、2 10及2 12能夠耗接至裝置 200之埠202、埠204及埠206 ^將在下文進一步論述之器件 208、210及212可分別與丨^[扣102、蜂巢式電話104及無線 耳機106類似或相同。裝置200亦可包括微控制器214、線 路216、線路218、開關220、輸入端222、輸出端224、輸 出端226、開關228、線路230、線路232、線路234、輸出 端236、線路238、升壓器240及調節器242,其亦將在下文 進行更詳細論述。 埠202、204及206藉由連接(亦即,導線、節點等)及/或 本文描述之裝置200之其他組件而電耦接在一起。槔2〇2、 204及206可為任何類型(例如,無線或有線)之埠,包括收 納可用於將裝置200耦接至任何類型的器件、裝置、電窺 及/或器件或其他裝置之組件的任何類型實體連接器的彼 128157.doc -10- 1373924 等埠。埠202、204及206可(例如)用於將公(male)或母 (female)連接器耦接至裝置2〇〇。舉例而言埠2〇2可為母 USB連接器,埠2〇4可為3〇接腳公連接器,且埠可為對 稱4接腳連接器,諸如在p4672p2申請案中所描述之連接 器。舉例而言,如在P4672P2申請案中所論述,埠2〇2可具 有磁性,且四個接腳(在P4672P2申請案中稱為觸點)中之 每一者為約0_7毫米寬且等距地隔開約! 〇毫米。在圖心中 說明例示性3 0接腳連接器及例示性四接腳連接器。 在替代實施例中,可移除埠202、2〇4及/或2〇6,並插入 其他埠(未圖示)。此將允許裝置2〇〇與器件及/或電纜之各 種組合耦接。舉例而言,若埠2〇2為母USB連接器,則可 移除埠202,並以為公USB連接器(或任何其他類型的連接 器)之埠來代替。 熟習此項技術者亦可瞭解,裝置2〇〇中可包括任何數目 之淳。儘管圖2將裝置200展示為包括三個埠,但根據本發 明之原理的裝置可包括多於或少於三個之埠,藉此允許任 何數目的器件在任何給定時間耦接至裝置。在裝置僅包括 一埠之實施例(下文將結合圖7a及圖7b更詳細論述)中,裝 置亦可包括其自身之電源,諸如電池、太陽電池板等。 在替代實施例中,裝置200可使未實體耦接至裝置2〇〇之 器件之間的資訊及電力交換更加便利。由此,器件可無線 地電耦接至裝置200,且可經由埠2〇2、2〇4及/或2〇6無線 地交換資訊及/或電力。 圖2之說明性實施例展示耦接至埠2〇2之器件208、耦接 128157.doc 1373924The device can be assigned a priority (e.g., low, medium, or high) that the present invention considers when transmitting power to and from each device. In the case of v, the priority assigned to each device is assigned. The level is based on which device the device is coupled to. Devices with lower priority are assigned to provide power, and devices assigned a higher priority receive power. Medium priority devices can receive and/or provide power in different situations. In an alternate embodiment, the microcontroller can assign a priority to each device in response to the microcontroller identifying the type of device (as opposed to the identification device being coupled to). In addition to the above components, the present invention may also use, for example, one or more switches, regulators, lifters, and various connectors (e.g., single wire, multi-wire bus, node, etc.). All of the components of the present invention can be supervised and controlled by the microcontroller. The features of the present invention will be more apparent from the following detailed description of the embodiments of the invention. SUMMARY OF THE INVENTION The present invention is directed to apparatus, systems, methods, and computer readable media that facilitate charging at least a battery of a device and facilitating information transfer between the device and the platform. The following is a description of various devices and methods that can be used in accordance with various examples of the present invention. 128157.doc 1373924 Figure 1 illustrates a docking station 10〇 electrically coupled to three devices. The three devices are the iMac 102, the cellular phone 1〇4, and the wireless headset 1〇6. The docking station 1 enables communication of information and power between devices. In at least one embodiment, docking station 100 communicates with each device prior to transmitting power to or from each device to identify and verify each device. The docking station 100 can also be used to facilitate additional information transfer between devices. Although the invention of the invention described below pertains to portable battery powered devices, the iMac 102 is a line powered device that receives power from a power line and does not require a battery. Other examples of line powered devices include devices that receive power from, for example, a solar panel, a generator, or any component other than a battery. The cellular telephone 104 and the wireless headset 1 〇 6 are portable battery powered devices. The battery powered device referred to herein includes a device having a self-contained battery or a battery that is external to the device to obtain power. The docking station i can, for example, facilitate charging the battery of the wireless headset 1 以 6 with power from the battery of the cellular telephone 104. Similarly, power from the iMac 1 〇 2 can be used to charge the cellular phone 104 and/or the wireless headset 1 》 6 "In some embodiments, the wireless headset 106 is associated with the __ application in the co-transfer US Provisional Patent Application No. (Customer Case No. P4672P1) (hereinafter referred to as "P4672P1 Application") and "Application for the Connector of Magnetic Detent" The wireless headsets discussed in Provisional Patent Application No. (No. P4672P2) (hereinafter referred to as "P4672P2 Application") are identical or substantially similar, and the entire contents of these applications are incorporated by reference. The configuration shown in Figure 1 is merely illustrative of one way in which the present invention can be implemented. It is discussed in the application of 128, 157. doc 1373924, P. 467, P1, which is applicable to an electronic device (such as a cellular phone) to another electronic accessory ( Additional configuration of docking systems such as wireless headsets for charging and transmitting information. Many other possible configurations of the present invention are available to those skilled in the art having the benefit of the disclosure contained herein. Thus, the description of Figures 2 through 15 is to be understood as illustrative and not limiting. Figure 2 is a simplified schematic block diagram of circuitry within device 200. In some embodiments, the device 200 is substantially similar to docking station 100 of Figure 1. Typically, but not necessarily, a single integrated circuit is used to implement device 200. Alternatively, a multi-wafer die including two or more separate integrated circuits can be used, for example. The device 200 is implemented to implement the device 200. The device 200 can include devices 202, 2, 10, and 2 12 capable of consuming the devices 202, 204, and 206 of the device 200. The devices 208, 210, and 212, which are discussed further below, can The device 200 can also include a microcontroller 214, a line 216, a line 218, a switch 220, an input terminal 222, an output terminal 224, and an output terminal 226, respectively. , switch 228, line 230, line 232, line 234, output 236, line 238, booster 240, and regulator 242, which will also be discussed in more detail below. 埠 202, 204, and 206 are connected by That is, wires, nodes, etc. And/or other components of device 200 described herein are electrically coupled together. 槔2〇2, 204, and 206 can be any type (eg, wireless or wired), including storage for coupling device 200 to 128157.doc -10- 1373924 of any type of physical connector of any type of device, device, electro-optical and/or device or other device component. The ports 202, 204, and 206 can be used, for example, to couple a male or female connector to the device 2A. For example, 埠2〇2 can be a female USB connector, 埠2〇4 can be a 3-pin male connector, and 埠 can be a symmetrical 4-pin connector, such as the connector described in the p4672p2 application. . For example, as discussed in the P4672P2 application, 埠2〇2 may be magnetic, and each of the four pins (referred to as contacts in the P4672P2 application) is about 0-7 mm wide and equidistant. Separated by land! 〇 mm. An exemplary 30-pin connector and an exemplary four-pin connector are illustrated in the figure. In an alternate embodiment, 埠 202, 2 〇 4, and/or 2 〇 6 may be removed and other 埠 (not shown) inserted. This will allow the device 2 to be coupled to various combinations of devices and/or cables. For example, if 埠2〇2 is the female USB connector, 埠202 can be removed and replaced by a male USB connector (or any other type of connector). Those skilled in the art will also appreciate that any number of defects may be included in the device. Although FIG. 2 shows device 200 as including three turns, devices in accordance with the principles of the present invention may include more or less than three turns, thereby allowing any number of devices to be coupled to the device at any given time. In embodiments where the device comprises only one device (discussed in more detail below in connection with Figures 7a and 7b), the device may also include its own power source, such as a battery, solar panel, and the like. In an alternate embodiment, device 200 may facilitate the exchange of information and power between devices that are not physically coupled to device 2. Thus, the device can be wirelessly coupled to device 200 and can exchange information and/or power wirelessly via 〇2〇2, 2〇4, and/or 2〇6. The illustrative embodiment of FIG. 2 shows device 208 coupled to 埠2〇2, coupled to 128157.doc 1373924

至埠204之器件2io及耦接至埠206之器件212。器件2〇8、 210及212可為任何電池供電或線路供電的器件。舉例而 言’器件208、210及212可為任何類型的可摧帶式 '固定 及/或行動器件,包括(但不限於)膝上型電腦、桌上型電 腦、音頻播放器(例如,隨身聽、光碟播放器等)、視頻播 放器、媒體播放器(例如,AppIe公司的細等)、視訊轉接 器、可攜帶式視頻遊戲系統(例如,s〇ny公司的psp、 Nintendo公司的Game Boy等)、電子書、蜂巢式電話、無 線電話、手持式電腦、GPS器件、閃光燈、個人數位助理 (PDA)(例如’ Palm公司的Pil〇t等)、電話用無線耳機衛 星無線電、遙控器、汽車錄匙圈、印表機、汽車無線電、 汽車計算系統、汽車打火機(或其他行動電源諸如飛機 打火機)、相機、電腦用附屬器件(例如,無線滑鼠、無線 鍵盤等)、腕錶、電湧保護器及AC/DC轉換器等。The device 2io to 204 and the device 212 coupled to the UI 206. Devices 2〇, 202, and 212 can be any battery powered or line powered device. For example, 'devices 208, 210, and 212 can be any type of destructible 'fixed and/or mobile device, including but not limited to laptops, desktops, audio players (eg, portable Listening, CD player, etc.), video player, media player (for example, AppIe's finer), video adapter, portable video game system (for example, psp of s〇ny, Game of Nintendo) Boy, etc.), e-books, cellular phones, wireless phones, handheld computers, GPS devices, flashlights, personal digital assistants (PDAs) (eg 'Pil〇t from Palm, etc.), wireless headsets for phones, satellite radios, remote controls , car key ring, printer, car radio, car computing system, car lighter (or other mobile power sources such as aircraft lighters), cameras, computer accessories (eg, wireless mouse, wireless keyboard, etc.), watches, Surge protectors and AC/DC converters.

器件2〇8、210及212亦可為可充當電源的任何器件,例 如,一或多個電池、發電機、太陽電池板、錢(USB電 鏡、串列電繞 '火線(FireWire)、電力線等)、電容器、電 感器或可用於向裝置200提供電力的任何其他電氣器件或 機械器件(諸如繞組器件”在本發明之一實施例中器件 、210及212中之至少兩者為可攜帶式電池供電器件。 在實施例中,裝置2〇〇包括微控制器214。微控制器 214可使用控制線(未圖示)與裝置2⑽之任何其他組件(下文 描述)及/絲接至裝置2⑽之任何器件(例如,器件施、 21〇及2⑺通信。在一些實施例中,每一控制線可為允許 128157.doc 1373924 微控制器214更有效地與裝置2〇〇之組件及器件208、210及 2 12進行通信的多線匯流排。 微控制器214亦可包括或可存取一或多個電腦可讀媒 體。微控制器214可藉由(例如)以下步驟向裝置2〇〇提供智 慧:控制至及自埠202、204及206之電力流動,經由適當 的線路及埠與器件208、2 10及2 12通信(下文進一步論述), 使器件208、210及212之間的通信更加便利,確定耦接至 裝置200之器件的數目及類型,區分耦接至裝置2〇〇之器件 的優先級,及對整個系統進行故障監視。 微控制器214可(例如)藉由控制至及自埠202、204及206 的電力流動來控制在器件208、21 0及2 12之間傳送的電 力。當器件208及2 10耦接至裝置200時,微控制器214可使 得電力自器件208傳送至器件210(且可使得電力自器件210 傳送至器件208)。所傳送的電力可用於(例如)對器件210之 電池充電’以允許器件2 1 0更有效地操作,從而允許器件 208與器件210通信(或者所傳送的電力可用於對器件208之 電池充電,以允許器件208更有效地操作,從而允許器件 2 10與器件208通信),等等。微控制器214亦可控制(例如) 自器件208至器件212(及自器件212至器件208)、自器件210 至器件21 2(及自器件21 2至器件210)、自器件208至器件210 及212(及自器件210及212至器件208)、自器件210至器件 208及212(及自器件208及212至器件210)、自器件212至器 件210及208(及自器件210及208至器件212)的電力傳送。下 文結合(例如)圖7至圖1 4更詳細地論述根據本發明之在多個 128157.doc 13 1373924 器件之間的電力傳送方法。 微控制器214可使用通信路徑(下文進-步論述)來協商 斋件之間的電力傳送。協商電力傳送涉及確定應向器件 及/或自器件提供多少電力,日·^、半 电力且了,步及(例如)重設器件。在 些實施例中,微控制器2 1 4可對彼枯―去 沿ζ 1 ^ J對裔件執行重啟器件之硬 體的硬重設及/或重啟器件之軟體 Ί卞心软體的軟重設。熟習此項技 術者將瞭解,亦可勃;^Mi j執仃任何其他類型的重設(諸如重設器 件之蟑的極性的重設)。 除了重設器件以外’協商雷六杨.芝i 册间尾力傳送可包括微控制器214 與器件之間的其他通信。舉例而言,在微控制器214識別 器件(下文進-步論述)之後,微控制器214可與該器件通 乜’。以便將該益件置於高功率模式下。高功率模式對於特 疋益件可為唯一的,且脾4 ->* OO .Λ 且將允許益件將更多電力給予一或多 個其他器件。舉例而今,一此 ° 二iPod具有允許iPod以(與器件 處於預設模式下時相比)較高電流輸出給定電壓之高功率 模式。-些态件僅在出現適當交握(亦即,識別、驗證等) 之後才進入高功率模式。 微控制器2】4可在確定哪些器件提供電力及哪些器件接 收電力時考慮任何數目的變數。舉例而言,微控制器214 可基於裝置200之槔的優先級(下文結合(例如_至圓15更 詳細地論述)或器件之優先極(τ文論述)進行此確定。 微控制益2 1 4亦可基於(例如)每一器件可用的超額電量 來確定哪些器侔认+蛩士 一 午,·Ό予電力及哪些器件接收電力。舉例而 言,微控制器214可自且古*上夕 J目具有較多超額電力的器件向具有較 128157.doc 1373924 夕超額電力的器件傳送電力。為計量器件具有的超額電 K,微控制器2M可考慮(例如)剩餘電池電力、冑池供電器 件在電池需要充電之前可運作的時長及/或器件是否搞接 至另-電源(諸如壁裝插座、大的傷用電池、#電機、太 陽電池板等)》Devices 2〇8, 210, and 212 can also be any device that can act as a power source, for example, one or more batteries, generators, solar panels, money (USB electron microscopy, tandem electrical windings, FireWire, power lines, etc.) a capacitor, an inductor or any other electrical or mechanical device (such as a winding device) that can be used to provide power to device 200. In one embodiment of the invention at least two of devices, 210 and 212 are portable batteries Power Supply Device. In an embodiment, the device 2A includes a microcontroller 214. The microcontroller 214 can use a control line (not shown) and any other components of the device 2 (10) (described below) and/or wire to the device 2 (10) Any device (e.g., device, 21, and 2 (7) communications. In some embodiments, each control line can be a component and device 208, 210 that allows 128157.doc 1373924 microcontroller 214 to more efficiently interface with device 2 And a multi-wire bus for communication. The microcontroller 214 can also include or have access to one or more computer readable media. The microcontroller 214 can provide intelligence to the device 2 by, for example, the following steps: Controlling the flow of power to and from ports 202, 204, and 206, communicating with devices 208, 2 10, and 2 12 via appropriate circuitry and ports (discussed further below), facilitates communication between devices 208, 210, and 212, Determining the number and type of devices coupled to device 200, prioritizing devices coupled to device 2, and fault monitoring the entire system. Microcontroller 214 can be controlled, for example, by Power flows of 202, 204, and 206 control the power transferred between devices 208, 21 0, and 12. When microcontrollers 208 and 2 10 are coupled to device 200, microcontroller 214 can cause power to be transmitted from device 208 to device 208. Device 210 (and may cause power to be transferred from device 210 to device 208.) The transmitted power may be used, for example, to charge the battery of device 210 to allow device 210 to operate more efficiently, thereby allowing device 208 and device 210. Communication (or the transmitted power can be used to charge the battery of device 208 to allow device 208 to operate more efficiently, allowing device 2 10 to communicate with device 208), etc. Microcontroller 214 can also control (eg, From device 208 to device 212 (and from device 212 to device 208), from device 210 to device 21 2 (and from device 21 2 to device 210), from device 208 to devices 210 and 212 (and from devices 210 and 212) Device 208), power transfer from device 210 to devices 208 and 212 (and from devices 208 and 212 to device 210), from device 212 to devices 210 and 208 (and from devices 210 and 208 to device 212). For example, Figures 7 through 14 discuss the power transfer method between a plurality of 128157.doc 13 1373924 devices in accordance with the present invention in more detail. Microcontroller 214 can use the communication path (discussed below) to negotiate power transfer between the widgets. Negotiating power transfer involves determining how much power should be supplied to the device and/or from the device, and the device is reset and, for example, reset. In some embodiments, the microcontroller 2 14 can perform a hard reset of the hardware of the restart device and/or restart the soft weight of the soft body of the device for the pair of devices. Assume. Those skilled in the art will appreciate that it is also possible to perform any other type of reset (such as resetting the polarity of the device after resetting the device). In addition to resetting the device, the negotiation between the relay and the device can include other communications between the microcontroller 214 and the device. For example, after the microcontroller 214 identifies the device (discussed below), the microcontroller 214 can communicate with the device. In order to put the benefit in high power mode. The high power mode may be unique to the special benefit piece, and the spleen 4 ->* OO .Λ and will allow the benefit piece to give more power to one or more other devices. For example, today, the iPod has a high-power mode that allows the iPod to output a given voltage with a higher current (compared to when the device is in the preset mode). - Some states enter the high power mode only after proper handshake (ie, identification, verification, etc.). The microcontroller 2 4 can take into account any number of variables in determining which devices provide power and which devices receive power. For example, the microcontroller 214 can make this determination based on the priority of the device 200 (hereinafter discussed in conjunction with (eg, _ to circle 15 discussed in more detail) or the device's priority pole (the τ text discussion). Micro Control Benefit 2 1 4 may also determine, based on, for example, the excess amount of power available to each device, which devices are recognized by the gents, gentlemen, and power, and which devices receive power. For example, the microcontroller 214 may be self-contained. The device with more excess power transmits power to the device with excess power of 128157.doc 1373924. For the excess power K of the metering device, the microcontroller 2M can consider, for example, the remaining battery power, the battery power supply The length of time the device can operate before the battery needs to be recharged and/or whether the device is connected to another power source (such as a wall outlet, a large battery, a motor, a solar panel, etc.)

微控制器214亦可(例如)回應#經由使用;^面接收到 使用者指示來指引經由裝置2〇〇之電力流動。使用者可(例 )選擇裝置200上之一或多個實體按紐(未圖示卜微控制 器214亦可回應於使用者與器件2〇8、21〇及/或2〗2之使用 者介面(未圓示)的互動來指引電力流動。 除了控制由耦接至裝置2〇〇之每一器件提供及接收的電 力以外,微控制器214可經由上文論述之控制線(未圖示)與 裝置200之任何其他組件或搞接至裝置細之任何器件通 信。微控制器214亦可使用下文描述之組件及導線來使與 搞接至裝置_之器件之間的資訊傳送更加便利。 在-些實施例中’自第一器件傳送至第二器件之資訊可 包括(例如)用於第二器件之軟體或拿刃體更新。第—器件(諸 如蜂巢式電話或電腦)可用於更㈣體或向第:器件(諸如 無線耳機)提供額外軟體。舉例而言,用於無線耳機之動 體更新可自中央伺服器(諸如Α_飼服器)下載至電腦(經 由’周際網路並下載至(例如中)或蜂巢式電話(經由 ^ 2電〇Γ:,路):當電腦或蜂巢式電話及無線耳機耗接至 、 時,可經由裝置2〇〇將資訊自電腦或蜂巢4 ‘.、、、.'耳機在一些其他實施例中,裝置2〇〇可使在下 128157.doc 15 1373924 文更詳細論述之裝置200外部的資訊傳送更加便利。 可直接或經由裝置200間接地在器件之間傳遞資訊。當 微控制器214在兩個器件之間建立直接通信時,可經由裝 . 置200之各組件(例如,埠202、204及/或20ό、開關220等) •' 導引信號,而不經由微控制器214導引該等通信。器件2〇8 與器件210之間的直接通信路徑之實例為埠2〇2至輸入端 222至開關220至輸出端224至埠204(及埠204至輸出端224 φ 至開關220至輸入端222至埠202)。當微控制器21 4使經由 間接通信路徑之資訊傳送更加便利時,資訊經由微控制器 214(經由控制線(未圖示)、線路216及/或線路218)而傳 遞。 當使用間接通信路徑時,微控制器214可(例如)監視資 訊(例如,對於故障、清晰性、病毒、内容等)。間接通信 路徑亦可允許微控制器214(例如,基於家長限制等)核准資 訊及/或將資訊儲存至可為RAM、ROM、快閃記憶體等的 φ 内部或外部記憶體(未圖示)中。亦可在使用者介面(諸如一 或多個發光二極體("LED")或裝置200可接取之任何其他介 面器件’其未展示)上顯示資訊及/或正在交換資訊的指 ' 不。微控制器214亦可對資訊進行編碼/解碼,及/或以任何 ·* 其他方式利用該資訊。器件210與212之間的間接通信路徑 之實例為埠204至線路21 6至微控制器2丨4至線路218至線路 224至埠206(或埠206至線路224至線路218至微控制器214 至線路216至埠204) ’所有路徑將在下文進一步論述。 通信路徑用於在器件之間交換資訊。微控制器214亦可 (s) 128157.doc 16 1373924 使用微控制器2 14與任何器件之間的通信路徑。舉例而 言’在器件208與器件210之間建立通信路徑之前,微控制 器214可在微控制器214與器件208之間建立通信路徑。微 控制器21 4接著可使用該通信路徑來(例如)識別及驗證器件 208。在與器件208通信之後,微控制器214可(例如)確定器 件208具有用於器件210之資訊。微控制器214接著可與器 件210建立通信路徑,確定可使用的通信協定識別器件 21〇、對器件210進行驗證並確定器件21〇是否應與器件2〇8 通k。若微控制器214確定可准許器件2〇8與器件2ι〇直接 通仏,則微控制器214將在器件208與器件21〇之間建立直 接連接,藉此使得器件2〇8與21〇能夠交換資訊。 在本發明之一些實施例中,當器件耦接至裝置2〇〇之琿 時’微控制器214經由控制線(未圖示)自料接收指示一器 件已耗接至該槔之信號。在一些實施例中,微控制器川 可監視裝置2GG之每-琿,並偵測何時有器件㈣至谭 Μ。、埠204及槔2〇6。回應於接收到來自埠之指示或摘測 到益件輕接至埠,微控制器214(在器件與微控制器214及/ 或其他益件之間)自動建立通信協定、識別器件並對器 件進行驗證。 舉例而言,若電腦稱接至物2,則微控制器214可與電 柄並朗電腦之不叫帽如電腦的品牌、型號、 稱、作業系統、通信協 式電話輕接料2〇4,則實例,若蜂巢 並 微控制器214可與蜂巢式電話通信 並4別蜂巢式電話的型號 u 。°牌及其他特性。以此方式, 128157.doc 1373924 微控制器214能夠確定耦接至裝置2〇〇之器件的數目及類 型〇 除了經由控制線(未圖示)控制裝置2〇〇之組件以外,微 控制器214亦可與裝置200之組件中之任一者以及器件 208、210及2 12交換資訊。舉例而言,微控制器214可經由The microcontroller 214 can also, for example, respond to # via the user's instructions to direct power flow via the device 2. The user can select one or more physical buttons on the device 200 (not shown, the microcontroller 214 can also respond to the user and the device 2〇8, 21〇 and/or 2) 2 Interaction of interfaces (not shown) to direct power flow. In addition to controlling the power provided and received by each device coupled to device 2, microcontroller 214 may be via the control lines discussed above (not shown) It is in communication with any other component of device 200 or any device that is connected to the device. The microcontroller 214 may also use the components and wires described below to facilitate the transfer of information between devices that are connected to the device. The information transmitted from the first device to the second device in some embodiments may include, for example, software or blade updates for the second device. The first device (such as a cellular phone or computer) may be used for more (4) Additional software for the body or device: such as a wireless headset. For example, the dynamic update for the wireless headset can be downloaded to the computer from a central server (such as a 饲 _ _ _ _ _ _ _ _ _ _ _ _ And download to (for example ) or cellular phone (via ^ 2 eMule:, road): When the computer or cellular phone and wireless headset are connected to, you can use the device 2 to send information from the computer or the hive 4 ', ,, . 'Headphones' In some other embodiments, the device 2 can facilitate the transfer of information external to the device 200 as discussed in more detail in the following 128 157.doc 15 1373924. Information can be transferred between devices directly or indirectly via the device 200. When the microcontroller 214 establishes direct communication between the two devices, it can be guided via the components of the device 200 (eg, 埠202, 204 and/or 20ό, switch 220, etc.) The communications are directed via microcontroller 214. Examples of direct communication paths between device 2〇8 and device 210 are 埠2〇2 to input 222 to switch 220 to output 224 to 埠204 (and 埠204 to Output 224 φ to switch 220 to input 222 to 埠 202). When microcontroller 21 4 facilitates information transfer via the indirect communication path, the information is via microcontroller 214 (via control line (not shown), Passed by line 216 and/or line 218). When used In the indirect communication path, the microcontroller 214 can, for example, monitor information (eg, for faults, clarity, viruses, content, etc.). The indirect communication path can also allow the microcontroller 214 (eg, based on parental restrictions, etc.) to approve information. And/or storing information in φ internal or external memory (not shown) that can be RAM, ROM, flash memory, etc. Also in the user interface (such as one or more LEDs (&quot LED") or any other interface device that can be accessed by device 200, which is not shown, and/or information being exchanged. No. Microcontroller 214 can also encode/decode information, and/or Use this information in any other way. Examples of indirect communication paths between devices 210 and 212 are 埠204 to line 216 to microcontroller 丨4 to line 218 to line 224 to 埠206 (or 埠206 to line 224 to line 218 to microcontroller 214) To line 216 to 埠 204) 'All paths will be discussed further below. Communication paths are used to exchange information between devices. The microcontroller 214 can also use (s) 128157.doc 16 1373924 to use the communication path between the microcontroller 2 14 and any device. By way of example, microcontroller 214 can establish a communication path between microcontroller 214 and device 208 prior to establishing a communication path between device 208 and device 210. Microcontroller 21 4 can then use the communication path to, for example, identify and verify device 208. After communicating with device 208, microcontroller 214 can, for example, determine that device 208 has information for device 210. The microcontroller 214 can then establish a communication path with the device 210, determine the available communication protocol identification device 21, verify the device 210, and determine if the device 21 should pass the device. If the microcontroller 214 determines that the device 2〇8 can be permitted to communicate directly with the device 2ι, the microcontroller 214 will establish a direct connection between the device 208 and the device 21〇, thereby enabling the devices 2〇8 and 21〇 Exchange information. In some embodiments of the invention, when the device is coupled to device 2, the microcontroller 214 receives, via a control line (not shown), a signal indicating that a device has been drained to the device. In some embodiments, the microcontroller can monitor each of the devices 2GG and detect when there is a device (4) to Tan. , 埠204 and 槔2〇6. The microcontroller 214 (between the device and the microcontroller 214 and/or other benefits) automatically establishes a communication protocol, identifies the device, and responds to the receipt of an indication from the device or the measurement of the benefit to the device. authenticating. For example, if the computer is connected to the object 2, the microcontroller 214 can be connected to the electric handle and the computer is not called a cap, such as a computer brand, model, weighing, operating system, communication cooperative telephone light connection 2〇4 The example, if the hive and microcontroller 214 can communicate with the cellular phone and the model u of the other cellular phone. ° cards and other features. In this manner, the 128157.doc 1373924 microcontroller 214 can determine the number and type of devices coupled to the device 2, except for the components of the control device 2 via control lines (not shown), the microcontroller 214 Information may also be exchanged with any of the components of device 200 and devices 208, 210, and 2 12 . For example, the microcontroller 214 can be via

線路216及埠204與器件210交換資訊(或使間接通信更加便 利)。作為另一實例,微控制器214可經由直接系接至輸出 端224(下文論述)之線路218及埠206與器件212交換資訊(或 使間接通信更加便利)。線路216及218較佳為使用至少兩 條導線載運資訊的雙向多線匯流排,但在一些替代實施例 中’線路216及218中之任一者或兩者可為單條導線。Lines 216 and 204 exchange information with device 210 (or make indirect communication more convenient). As another example, microcontroller 214 can exchange information (or facilitate indirect communication) with device 212 via lines 218 and 埠 206 that are directly coupled to output 224 (discussed below). Lines 216 and 218 are preferably bidirectional multi-wire busbars that carry information using at least two conductors, but in some alternative embodiments, either or both of lines 216 and 218 may be a single conductor.

如上所述’在微控制器214使器件之間的通信更加便利 之前’微控制器214可建立通信路徑。建立通信路徑可包 括建議或確定用於傳輸資訊至耦接至裝置2〇〇之每一器件 或自其接收資訊之協定及/或標準(例如,USB、串列等)。 當三個或三個以上器件耦接至裝置2〇〇時,微控制器214可 使用不同類型的通信協定使不同器件對之間及/或器件與 微控制器2 14之間的通信更加便利。 舉例而言,當微控制器214偵測到器件208、210及212分 別耦接至埠202、204及206時,微控制器214可在器件208 與210之間建立使用USB協定交換資訊的直接通信路徑(例 如,經由開關220)。微控制器2 14亦可(例如)使用不同的串 列資料傳送標準同時使器件210與212之間的間接通信(經 由(例如)線路216、線路2 18及輸出端224)更加便利。The microcontroller 214 can establish a communication path as described above before the microcontroller 214 facilitates communication between devices. Establishing the communication path can include suggesting or determining protocols and/or standards (e.g., USB, serial, etc.) for transmitting information to or receiving information from each of the devices. When three or more devices are coupled to device 2, microcontroller 214 can facilitate communication between different device pairs and/or between device and microcontroller 2 14 using different types of communication protocols. . For example, when the microcontroller 214 detects that the devices 208, 210, and 212 are coupled to the ports 202, 204, and 206, respectively, the microcontroller 214 can establish a direct exchange of information between the devices 208 and 210 using the USB protocol. The communication path (eg, via switch 220). Microcontroller 2 14 may also, for example, use different serial data transfer standards while facilitating indirect communication between devices 210 and 212 (via, for example, line 216, line 2 18, and output 224).

(S 128157.doc •18- 1373924 在些實細*例中,微控制器214可藉由向器件提供(例 如)特定電壓來指定正在使用哪一類型的通信協定(例如,5 伏特可指示USB,3伏特可指示串列,等等)。將在下文進 一步論述此情形。 §不同的器件及組件正在通信時,本發明可同時使用多 個通彳s標準及/或協定。舉例而言,當器件2〇8為usb相容 器件時,可使用USB通信協定。當器件21〇亦為USB相容器 件時,微控制器214可使.器件208與210之間的直接通信(經 由開關2 2 0 )更加便利。 在替代實施例中,當器件210不能與器件208直接通信 時,微控制器214可使器件208與210之間的間接通信更加 便利。舉例而言’當器件2丨〇不為USB相容器件,且器件 208僅可使用USB協定通信時’微控制器214可使器件208 與210之間的間接通信更加便利。微控制器2丨4可(例如)使 用USB協定自器件208接收資訊,且接著使用另一協定將 該資訊中繼至器件210。 一些器件可同時與多個器件及/或多個通信協定通信。 舉例而言’埠204可為3 0接腳連接器,此將使得器件21 〇能 夠使用第一通信協定與器件212間接通信,同時使器件210 能夠使用第一或第二通信協定與器件2〇8直接通信。 在一些實施例中,微控制器2 1 4使耦接至裝置200之器件 之間的所有通信更加便利。在一些實施例中,在器件之間 建立的通信路徑之類型(亦即,所使用的通信協定、直接 或間接等)可係基於(例如)每一器件耦接至之埠的優先級' 128157.doc •19· 1373924 器件之類型、與每一器件相容的通信協定之類型及/數目 等。 另外’可能需要微控制器214基於埠202、204及206之相 對優先級來使通信及/或電力傳送更加便利。埠202、204 及206之優先級可係基於(例如)裝置200進行硬連線之方式 及/或在微控制器214上執行之軟體。在一些實施例中,微 控制器214可回應於微控制器214可用的各種資訊(例如, 當前包括於裝置200内之埠的類型、包括於裝置2〇〇内之其 他組件等)來自動確定埠202、204及206之優先級。 在一些實施例中,埠202、204及206之相對優先級可控 制哪些器件提供電力及哪些器件接收電力。舉例而言當 器件208、210及212分別耦接至埠202、204及206時,器件 可為最低優先級器件(由於(例如)埠2〇2為最低優先級 埠),且器件212可為最高優先級器件(由於(例如)埠2〇6為 最尚優先級埠)。微控制器214可使自器件2〇8(耦接至最低 優先級埠)至較高優先級埠(例如,埠204及206)之電力傳送 更加便利,藉此允許藉由器件2〇8對耦接至較高優先級埠 之器件(亦即’器件210及212)進行充電。 件(例" 少一 ϋ 先級" 當最低優先級埠未連接至器件時(例如,當器件2〇8未耦 接至埠202時)’微控制器214可向另一埠(例如,埠2〇4)指 派最低優先級。微控制器214可將電力自耦接至該埠之器(S 128157.doc • 18-1373924 In some examples, the microcontroller 214 can specify which type of communication protocol is being used by providing, for example, a particular voltage to the device (eg, 5 volts can indicate USB) 3 volts may indicate a string, etc.) This situation is discussed further below. § When different devices and components are communicating, the present invention may use multiple standards and/or protocols at the same time. The USB communication protocol can be used when device 2〇8 is a usb compatible device. When device 21〇 is also a USB compatible device, microcontroller 214 can enable direct communication between devices 208 and 210 (via switch 2) 2 0 ) is more convenient. In an alternate embodiment, microcontroller 214 may facilitate indirect communication between devices 208 and 210 when device 210 is unable to communicate directly with device 208. For example, 'when device 2丨〇 Not being a USB compatible device, and device 208 can only communicate using the USB protocol 'microcontroller 214 can facilitate indirect communication between devices 208 and 210. Microcontroller 2丨4 can, for example, use the USB protocol from Device 208 receives the information, and Another agreement is used to relay the information to device 210. Some devices can communicate with multiple devices and/or multiple communication protocols simultaneously. For example, '埠204 can be a 30-pin connector, which will make the device 21 〇 can communicate indirectly with device 212 using the first communication protocol while enabling device 210 to communicate directly with device 2〇8 using the first or second communication protocol. In some embodiments, microcontroller 2 14 is coupled All communication between devices to device 200 is more convenient. In some embodiments, the type of communication path established between devices (ie, the communication protocol used, direct or indirect, etc.) may be based on, for example, The priority to which each device is coupled '128157.doc •19· 1373924 The type of device, the type and/or number of communication protocols that are compatible with each device, etc. Additionally, it may be necessary for microcontroller 214 to be based on 埠202 The relative priorities of 204 and 206 are to facilitate communication and/or power transfer. The priorities of ports 202, 204, and 206 may be based, for example, on the manner in which device 200 is hardwired and/or in microcontroller 214. on Executable software. In some embodiments, the microcontroller 214 can respond to various information available to the microcontroller 214 (eg, the type of defect currently included in the device 200, other components included in the device 2, etc., etc. The priorities of the ports 202, 204, and 206 are automatically determined. In some embodiments, the relative priorities of the ports 202, 204, and 206 can control which devices provide power and which devices receive power. For example, when the devices 208, 210 When 212 and 212 are respectively coupled to 埠202, 204, and 206, the device can be the lowest priority device (since 埠2〇2 is the lowest priority 埠), and device 212 can be the highest priority device (due to (eg ) 埠 2 〇 6 is the most priority 埠). Microcontroller 214 may facilitate power transfer from device 2〇8 (coupled to lowest priority 埠) to higher priority 埠 (eg, 埠 204 and 206), thereby allowing pairing by device 2〇8 Devices coupled to higher priority ( (ie, 'devices 210 and 212) are charged. (Example " Lesser ϋPrimary" When the lowest priority 埠 is not connected to the device (for example, when device 2〇8 is not coupled to 埠202), the microcontroller 214 can go to another 埠 (eg , 埠 2 〇 4) assign the lowest priority. The microcontroller 214 can electrically couple the power to the device

128157.doc -20- 1373924 電力"及"哪個(些)器件應接收電力·’。 在替代實施例中,微控制器214可向耦接至裝置2〇〇之器 件(例如’器件208、210及/或212)指派與埠202、2〇4及2〇6 相對之優先級。微控制器214可使用微控制器可用的資訊 來區分耦接至裝置200之一或多個器件的優先級。舉例而 言,當區分器件之優先級時,微控制器214可考慮耦接至 裝置200之器件的數目、耦接至裝置2〇〇之器件的類型、使128157.doc -20- 1373924 Electricity "and" Which device(s) should receive power. In an alternate embodiment, microcontroller 214 may assign a priority to devices (e.g., 'devices 208, 210, and/or 212) that are coupled to device 2, as opposed to 埠 202, 2〇4, and 2〇6. Microcontroller 214 can use the information available to the microcontroller to prioritize the coupling to one or more devices of device 200. For example, when prioritizing the device, the microcontroller 214 can consider the number of devices coupled to the device 200, the type of device coupled to the device 2, such that

用者經由使用者介面(未圖示)向裝置2〇〇提供的資訊、器件 耦接至裝置200之時間次序等。 與埠之優先級類似,器件之優先級可用於控制耦接至裝 置200之器件之間的電力流動(及在—些實施例中的資訊流 動)。舉例而言,當器件208、21〇及212輕接至裝置· 時’無關於每—器件輕接至哪一埠,可向器件208指派最 低優先級,且可向器件212指派最高優先級。微控制器214 可(例如)將電力自至少-較低優先級器件之電源指引至至 少一較高優L級器件之電源,藉此以由較低優先級器件提 供的電力㈣高優先級器件(例如,器件21()及212)進行充 電0 ^最低優先級器件(例如’器件扇)自裝置細斷開或上 ”他方式去搞時’現可向另—器件(例如,器件2⑺)指派還The information provided by the user to the device 2 via a user interface (not shown), the time sequence in which the device is coupled to the device 200, and the like. Similar to the priority of the device, the priority of the device can be used to control the flow of power between the devices coupled to device 200 (and the flow of information in some embodiments). For example, when devices 208, 21, and 212 are tapped to the device, regardless of which device is connected to each device, device 208 can be assigned the lowest priority and device 212 can be assigned the highest priority. Microcontroller 214 can, for example, direct power from a power source of at least a lower priority device to a power source of at least one higher priority class L device, thereby providing power from a lower priority device (four) high priority device (For example, devices 21() and 212) charge 0^ the lowest priority device (such as the 'device fan) from the device finely disconnected or on the "when the way to do it" can now be to another device (for example, device 2 (7)) Assignment

低優先級。微控制5|2丨LLow priority. Micro control 5|2丨L

㈣214可再—切電力自最低優先級I 件(例如’器件210)導引至至今 1芏主夕—較尚優先級器件(例如, 器件212)。 微控制器214亦可斜奘番,ΛΛώ > ί裝置200及耦接至裝置2〇〇之任何器 I28157.doc -21 - 1373924 件進行故障監視。回應於偵測到故障,微控制器2丨4可嘗 試修復故障及/或(向(例如)耦接至裝置2〇〇之器件中之一或 多者、裝置200之使用者介面(未圖示)等)報告故障。熟習 此項技術者將理解,微控制器214可採取任何其他適當動 作。 在一些實施例中’微控制器214可使兩個或兩個以上器 件之間以無線方式或利用裝置200外部的有線連接進行的 通信更加便利。微控制器214可藉由(例如)以下步驟使兩個 器件之間的通信更加便利:首先,識別並驗證耦接至裝置 200之兩個器件,且接著,在該兩個器件之間建立通信協 定(可為無線的)。接著可以無線方式在該兩個器件之間交 換資訊。 舉例而a,裝置200可用於使兩個器件自動配對,此使 得使用者不必輸入(例如)器件代碼。器件代碼之一實例為 用於程式化通㈣控器之代碼。另—更複雜之器件代碼為 藍芽PIN,該藍芽pin允許啟用藍芽的器件被配對,從而形 成信任關係,同時防止器件與恰巧在附近之其他器件配 對。在一些實施例中,在經由裝置200之組件及導線交換 益件代碼之後,可在器件之間以無線方式繼續配對過程。 在其他實施例中,微控制器214可使用裝置2〇〇之導線及組 件使整個配對過程更加便利。將在下文結合圖4更詳細地 論述兩個器件之自動配對。 在一班*實施例Φ,4«: m 一 T 裝置200可包括可允許微控制器 214(例如)與器件進行| 订無線通仏之無線發射器及/或接收器 128157.doc -22- 1373924 (未圖示)。在一些實施例中,微控制器214可接取並使用建 置於耦接至裝置200之器件(諸如蜂巢式電話)内的無線發射 器及/接收器。 • 在替代實施例中’可自裝置200移除微控制器214。在其 • 他替代實施例中’可由僅提供本文描述之微控制器214之 功能性中之一些的組件來代替微控制器214。 無關於本發明之實施例包括微控制器214、提供比本文 • 描述之功能性少的功能性之微控制器還是根本不包括微控 制器,仍可自第一器件向第二器件傳送電力及資訊。舉例 而言,兩個器件可經由額外導線(未圖示)、以無線方式(例 如,使用藍芽標準及協定(亦即,IEEE 802.15.1)、WiFi標 準及協定(亦即,IEEE 802.11標準中的任一者)等)或藉由 任何其他方式進行通信。(熟習此項技術者將瞭解,在本 發明中通篇使用之術語”導線”並不意欲將本發明限於使用 金屬線,而意欲包含用於將兩個電力組件電耦接在一起的 ♦㈣及每—方式)。由此,在省略微控制或包括具有比 微控。制器214少的功能性之微控制器的本發明之實施例 + ™件之間不、祕由裝置2〇〇之通信可(例如)保留由微控制 器2 14提供的功能性中之一些或所有。 -- 在本發明之—些實施例中,裝置200可包括—或多者開 關。舉例而言,裝置可包括(經由未展示的控制線)自微 控制器214接收輸入控制信號之開關22()及開關咖。 ^本發明之—些實施例中,開關220控制自耗接至槔202 之斋件至麵接至埠2〇4及2〇6之器件的資訊流動。較佳地, 128157.doc •23· 1373924 開關220經由輸入端222自埠202接收資訊。輸入端222可載 運(例如)資訊<§號、電力、接地等。輸入端222較佳為多線 匯流排(例如’四線匯流排、雙絞線等)。 熟1此項技術者將瞭解,在本發明之替代實施例中,開 關220可自裝置200之任何其他組件(例如,自埠2〇4、埠(d) 214. The re-cut power is directed from the lowest priority I device (e.g., 'device 210) to the current priority device (e.g., device 212). The microcontroller 214 can also perform fault monitoring by ramping up the device 200 and any device coupled to the device 2, I28157.doc -21 - 1373924. In response to detecting the failure, the microcontroller 2丨4 may attempt to repair the fault and/or (to, for example, one or more of the devices coupled to the device 2, the user interface of the device 200 (not shown) Show), etc.) report a fault. Those skilled in the art will appreciate that the microcontroller 214 can take any other suitable action. In some embodiments, the microcontroller 214 may facilitate communication between two or more devices wirelessly or with a wired connection external to the device 200. The microcontroller 214 can facilitate communication between the two devices by, for example, the following steps: first, identify and verify two devices coupled to the device 200, and then establish communication between the two devices Agreement (can be wireless). The information can then be exchanged between the two devices wirelessly. By way of example, a, device 200 can be used to automatically pair two devices, which eliminates the need for the user to input, for example, device code. An example of a device code is code for a programmatic pass (four) controller. Another—more complex device code is the Bluetooth PIN, which allows Bluetooth-enabled devices to be paired to form a trust relationship while preventing the device from pairing with other devices that happen to be nearby. In some embodiments, the pairing process can continue wirelessly between devices after exchanging the benefit code via the components and wires of device 200. In other embodiments, the microcontroller 214 can use the wires and components of the device 2 to facilitate the entire pairing process. The automatic pairing of the two devices will be discussed in more detail below in connection with Figure 4. In a class of embodiments Φ, 4«: m-T device 200 may include a wireless transmitter and/or receiver 128157.doc -22- that allows the microcontroller 214 to, for example, perform a wireless communication with the device. 1373924 (not shown). In some embodiments, the microcontroller 214 can access and use wireless transmitters and/or receivers that are built into devices (such as cellular phones) that are coupled to the device 200. • The microcontroller 214 can be removed from the device 200 in an alternate embodiment. In its alternative embodiment, the microcontroller 214 may be replaced by a component that provides only some of the functionality of the microcontroller 214 described herein. Regardless of the embodiments of the present invention, the microcontroller 214, a microcontroller that provides less functionality than the functionality described herein, or a microcontroller is not included, can still transfer power from the first device to the second device and News. For example, two devices may be wireless (eg, using Bluetooth standards and protocols (ie, IEEE 802.15.1), WiFi standards, and protocols (ie, IEEE 802.11 standards) via additional wires (not shown). Any of them) or by any other means of communication. It will be understood by those skilled in the art that the term "wire" as used throughout the present invention is not intended to limit the invention to the use of metal wires, but is intended to include ♦ (4) for electrically coupling two power components together. And every way -). Thus, the micro control is omitted or included with a micro control. Embodiments of the present invention with less functionality of the microcontroller 214 + communication between the TM devices may, for example, retain some of the functionality provided by the microcontroller 2 14 Or all. - In some embodiments of the invention, device 200 may include - or a plurality of switches. For example, the device can include a switch 22() and a switch coffee that receive an input control signal from the microcontroller 214 (via a control line not shown). In some embodiments of the invention, the switch 220 controls the flow of information from the device that is self-contained to the device 202 to the devices that are connected to the ports 2〇4 and 2〇6. Preferably, 128157.doc • 23· 1373924 switch 220 receives information from port 202 via input 222. Input 222 can carry, for example, information <§ number, power, ground, and the like. Input 222 is preferably a multi-wire bus (e.g., 'four-wire bus, twisted pair, etc.). It will be appreciated by those skilled in the art that in an alternate embodiment of the invention, the switch 220 can be any other component of the device 200 (e.g., from 埠2〇4, 埠

206等)接收至;一額外輸入(例如,兩線匯流排、單線輸 入、較大的匯流排等)(未圖示當(例如)開關22〇自埠2〇4 接收輸入時,器件210亦可充當資訊源。開關22〇既而可用 於將來自器件210之資訊提供至裝置2〇〇之組件及/或其他 器件。舉例而言,自埠204至開關22〇之兩線匯流排將允許 裝置200在器件210與212之間建立直接通信路徑,藉此允 許在器件210與212之間起始主從關係(諸如藍芽配對過 程)。 在一些實施例中,輸入端222可使用任何協定及/或標準 向開關220提供資訊。舉例而言,可由裝置2〇〇接受及/或 理解經由USB協定或任何其他協定發送之資訊。為了簡單 起見,本發明在本文描述為僅使用兩個資料傳送標準,亦 即U S B標準及本文稱為串列標準之另—串列資料傳送標 準此表述之選擇並非旨在將本發明限制於此等標準,而 旨在簡化本發明之論述。熟習此項技術者將瞭解,可使用 許多其他標準及/或協定在埠2〇2、2〇4、2〇6、裝置之 其他組件及器件208、210及212之間發送信號及/或傳送資 料。用於與耦接至裝置2〇〇之每一器件通信的標準及/或協 定可基於(例如)器件之優先級、器件之類型、裝置2〇〇之组 128157.doc •24- 1373924 件(例如’裝置200之零件的類型,等)等。 在本發明之一些實施例中,開關220具有兩個輸出端, 亦即輸出端224及輸出端226。輸出端224及226可為單線或 多線匯流排。輸出端224較佳為至埠204之兩線匯流排。輸 出端226較佳為至槔206之兩線匯流排。開關22〇可回應於 微控制器214發送至開關220之控制信號而使輸入端222與 輸出端224及/或輸出端226耦接。舉例而言,開關22〇可使 輸入端222耦接至輸出端224、輸出端226或兩者,藉此允 許電力(可包括或不包含資訊)自器件2〇8分別流至埠2〇4 ' 淳206或兩者。 在包括第二輸入端(諸如’來自無線接收器、埠2〇4等的 輸入端)之替代實施例中,開關220可使(例如)輸入端222耦 接至輸出端226,及使該第二輸入端耦接至輸出端226,藉 此允許資訊自器件208流至器件210及自第二輸入端流至器 件 212。 需要輸入端222、輸出端224及輸出端226使用多個標準 及/或協定(例如,USB等)來載運資訊。在替代實施例中, 輸入端222、輸出端224及輸出端226可載運對器件充電的 電力。 如上文所論述,微控制器214可向埠202、204及206指派 相對優先級(與向器件208、210及212指派優先級相對)。圖 2說明根據本發明之一實施例,其包括將基於埠之優先級 區分而改良電力流動效率的組件及連接。舉例而言,裝置 2 00包括允許電力在器件2〇 8耦接至裝置200時自埠202自動 128157.doc -25- 1373924 流至埠204之線路230。作為另一實例,當器件2〇8耦接至 裝置200時,線路230意欲維持本文稱為V1之特定dc電壓 (例如,5伏特、4.7伏特等)。由此,線路23〇可用於對器件 21〇進行充電。 在一些實施例中’微控制器214可監視由(例如)器件2〇8 提供的電壓’且使(例如)線路23〇上之埠2〇2與埠2〇4之間的 電力傳送更加便利。當器件2〇8(或任何其他器件)不能在導 線(諸如線路230)上提供特定的電量(由於其電力供應正減 少)時,微控制器2 14可限制該導線(或任何其他連接器)上 的電力流動。限制導線上的電力流動可防止器件(例如, 器件208)被另一器件(例如,器件2 1〇)耗盡電力。 在替代實施例中,可在不涉及微控制器214之情況下將 電力自槔202傳送至埠204(例如,當線路230經硬連線以完 成此情形時)。又,在一些替代實施例(例如,微控制器214 區分每一器件優先級之實施例,其中裝置2 〇 〇經設計以在 每一器件之間均勻地分配來自所有器件的淨可用電力) 中’微控制器214可允許電力在線路230上雙向流動。 本發明之實施例亦包括開關228。出於許多原因,可在 裝置200内包括開關228。需要使用開關228以使藉由來自 器件208之電力對器件212(亦即,耦接至最高優先級埠之 器件)、器件210(亦即,耦接至中等優先級埠之器件)或器 件210及212兩者進行充電。 在一些實施例中’除了來自微控制器214之控制線(未圖 示)以外’開關228亦接收線路230、線路232及線路234作 I28l57.doc -26· 1373924 為輸入端。如上所述,線路23 0允許電力自埠202流出,且 較佳維持本文稱為VI之特定電壓。線路232為允許電力自 埠204經由線路238及升壓器240流動之導線。較佳地,線 * 路232維持本文稱為V2之特定DC電壓(例如,3伏特、3.3伏 特等)。線路234為允許電力自埠202及/或埠204(分別經由 線路230及/或線路238及升壓器240)經由調節器242流至開 關228之導線。裝置200可在線路234上維持本文稱為V3之206, etc. received; an additional input (eg, two-wire bus, single-wire input, larger bus, etc.) (not shown, for example, when the switch 22 is 埠2〇4 receiving input, the device 210 is also Can act as a source of information. Switch 22 can be used to provide information from device 210 to components and/or other devices of device 2. For example, a two-wire busbar from 埠204 to switch 22 will allow the device 200 establishes a direct communication path between devices 210 and 212, thereby allowing a master-slave relationship (such as a Bluetooth pairing process) to be initiated between devices 210 and 212. In some embodiments, input 222 can use any protocol and / or standard provides information to switch 220. For example, information transmitted via USB protocol or any other agreement may be accepted and/or understood by device 2. For simplicity, the invention is described herein as using only two data. The transmission standard, that is, the USB standard and the other-series data transmission standard referred to herein as a serial standard, is not intended to limit the invention to such standards, but is intended to simplify the teachings of the present invention. Those skilled in the art will appreciate that many other standards and/or protocols may be used to transmit signals and/or between other components of the device and devices 208, 210, and 212 using 埠2〇2, 2〇4, 2〇6, other components of the device, and/or The data and the standards and/or protocols used to communicate with each of the devices coupled to the device 2 can be based on, for example, the priority of the device, the type of device, the group of devices, 128157.doc • 24- 1373924 pieces (eg, 'type of part of device 200, etc.), etc. In some embodiments of the invention, switch 220 has two outputs, namely output 224 and output 226. Outputs 224 and 226 can be The single-wire or multi-wire bus bar. The output terminal 224 is preferably a two-wire bus bar to the port 204. The output terminal 226 is preferably a two-wire bus bar to the port 206. The switch 22A can be sent to the switch in response to the microcontroller 214. The input signal 222 is coupled to the output terminal 224 and/or the output terminal 226. For example, the switch 22A can couple the input terminal 222 to the output terminal 224, the output terminal 226, or both. Allowable power (with or without information) flows from device 2〇8 to埠2〇4' 淳 206 or both. In an alternative embodiment that includes a second input (such as 'input from a wireless receiver, 埠2〇4, etc.), switch 220 can cause, for example, input 222 The second terminal is coupled to the output terminal 226, and the second input terminal is coupled to the output terminal 226, thereby allowing information to flow from the device 208 to the device 210 and from the second input to the device 212. The input terminal 222 and the output terminal are required. 224 and output 226 use a plurality of standards and/or protocols (e.g., USB, etc.) to carry information. In an alternate embodiment, input 222, output 224, and output 226 can carry power to charge the device. As discussed above, the microcontroller 214 can assign relative priorities to the ports 202, 204, and 206 (as opposed to assigning priorities to the devices 208, 210, and 212). Figure 2 illustrates components and connections that improve power flow efficiency based on prioritization of chirps in accordance with an embodiment of the present invention. For example, device 200 includes a line 230 that allows power to flow from device 202 to 128157.doc -25-1373924 to port 204 when device 2〇8 is coupled to device 200. As another example, when device 2〇8 is coupled to device 200, line 230 is intended to maintain a particular dc voltage (e.g., 5 volts, 4.7 volts, etc.) referred to herein as V1. Thus, line 23A can be used to charge device 21A. In some embodiments, 'microcontroller 214 can monitor the voltage provided by, for example, device 2〇8' and facilitates power transfer between, for example, 埠2〇2 and 埠2〇4 on line 23〇. . When device 2〇8 (or any other device) is unable to provide a particular amount of power on a wire (such as line 230) (due to its power supply being reduced), microcontroller 2 14 can limit the wire (or any other connector) The flow of electricity on. Limiting the flow of power over the wire prevents the device (eg, device 208) from being depleted of power by another device (eg, device 2 1〇). In an alternate embodiment, power can be transferred from port 202 to port 204 without involving microcontroller 214 (e.g., when line 230 is hardwired to accomplish this). Again, in some alternative embodiments (e.g., the microcontroller 214 distinguishes between each device priority embodiment, where device 2 is designed to evenly distribute the net available power from all devices between each device) Microcontroller 214 may allow power to flow in both directions on line 230. Embodiments of the invention also include a switch 228. Switch 228 can be included within device 200 for a number of reasons. Switch 228 is required to enable device 212 (i.e., a device coupled to the highest priority 、), device 210 (i.e., a device coupled to a medium priority )) or device 210 by power from device 208. And 212 are both charged. In some embodiments, in addition to the control lines (not shown) from microcontroller 214, switch 228 also receives line 230, line 232, and line 234 as inputs for I28l57.doc -26· 1373924. As noted above, line 230 allows power to flow from port 202 and preferably maintains a particular voltage referred to herein as VI. Line 232 is a wire that allows power to flow from line 204 through line 238 and booster 240. Preferably, line * 232 maintains a particular DC voltage (e.g., 3 volts, 3.3 volts, etc.) referred to herein as V2. Line 234 is a wire that allows power to flow from port 202 and/or port 204 (via line 230 and/or line 238 and booster 240, respectively) via regulator 242 to switch 228. Device 200 can maintain what is referred to herein as V3 on line 234.

^ 特定DC電壓(例如,4.7伏特、4.5伏特等),V3較佳小於VI 但大於V2。 在一些實施例中,輸出端236為允許電力自開關228流至 埠206(亦即,最高優先級埠)之導線。由此,當器件208及 210中之至少一者耦接至裝置2〇〇時,開關22〇允許器件 接收電力。微控制器214可使開關228將線路230、線路232 或線路234耦接至輸出端236 ^圖8至圖15論述微控制器21 4 如何確定哪一輸入線路耦接至輸出端236之一些實例。 • 除了對器件進行充電以外,裝置200之任何導線上的電 壓可用於向耦接至裝置200之任何器件提供資訊。舉例而 言,輸出端236上之電壓(亦即,Vx)可向器件212指示正在 • 或將被用於向器件212提供資訊之通信協定之類型(例如, * USB、串列等作為另一實例,裝置2〇〇可使器件212回應 於在輸出端236上維持之特定電壓或電壓範圍而重設或重 新校準(例如)器件212之埠的極性。在於__^請之 共同讓渡之名為&quot;Systems and Methods f〇r Determining 加 iguration of Electronic Connections”之美國專利申請 128157.doc -27· 1373924 系弟--號(代理人檔案號碼104677-0015-101 (P4630US1))中論述了用於重設將器件之埠的極性之系統 及方法’該申請案之全文以引用之方式併入本文中。由 此’微控制器214可使用(例如)開關228向器件212通知器件 212應自輸出端224期望之資料傳送協定之類型及/或輸出 端224之哪些導線(當輸出端224為多線匯流排時)將載運資 訊至益件2 12。 在一些實施例中,裝置200將包括升壓器240及調節器 242。升壓器240可將在線路238上維持之電壓增加到較高 之電壓(例如,V3),該較高之電壓接著維持於線路232 上。調節器242可將線路230及/或線路232上之電壓降低至 本文稱為Vy之任何電壓。 由於以不同電量對不同器件進行充電更有效,因此該實 施例包括升壓器240及調節器242。舉例而言,若向$〇(1提 供5伏特電壓,則可最有效地對ip〇d進行充電,而附屬器 件(例如,遙控器、藍芽耳機等)可在提供47伏特電壓時被 最有效地充電。熟習此項技術者將理解,本發明可在任何 電塵或任何電壓範圍下(例如,4 7伏特、4 6·4 8伏特、 4.9-5.1伏特、3.1-3.3伏特、0-5.0伏特、5_12伏特等)且在 任何電流或任何電流範圍下使電力傳送更加便利。 在替代實施例中,可自裝置200省略升壓器24〇及/或調 節器242。熟習此項技術者亦將瞭解,V3可為與…或^^相 同之電壓。類似地,在替代實施例t , V1可為與V2相同 之電壓。 J28l57.doc -28- 1373924 = 厂、在裝置3 〇〇中實施之電路的簡化示意性方塊圖, 該裝置30G為本發明之替代實施例的說明性實例。在裝置 中實把之電路與在圖2之裝置200中實施之電路類似, 、 之處在於裝置2〇〇及裝置300皆可使輕接至其之器件 之門的:貝訊及電力傳送更加便利。熟習此項技術者將瞭 解’在本發明之各實施例中,可利用類似或相同組件來執 行類似或相同功能。特定言之,圖3之組件2χχ與圖2之組 件2ΧΧ類似或相同。 裝置300包括埠202、埠204、埠206、器件208、器件 210、器件212、微控制器214、線路216、線路218、開關 3 02、輸入端304、輸出端3〇6及輸出端3〇8。裝置3〇〇與裝 置200之不同之處在於,裝置300包括之組件比裝置2〇〇 少〇 開關302接收輸入端3 〇4作為輸入。輸入端3〇4可為將資 訊及電力自器件208(經由埠202)載運至開關302之多線匯流 排(例如’ 2、3、4等條導線之匯流排)。線路3〇4之功能性 與圖2之線路222及23 0之組合功能性類似。 開關302說明為具有兩個輸出端,亦即輸出端3〇6及 308。輸出端306允許開關302經由槔204向器件210傳送資 §fl及電力。輸出端308允許開關302經由槔206向器件212傳 送信息和電力。開關302可基於微控制器214經由控制線 (未圖示)發送至開關302之指令使輸入304與輸出端306及/ 或輸出端308麵接。裝置300之控制線與上文結合裝置2 〇〇 描述之控制線類似或相同。 128157.doc -29· 1373924 如上所述,此論述意欲說明本發明之例示性實施例,而 不意欲以任何方式限制本發明。舉例而言,熟習此項技術 者將瞭解’在不背離本發明之精神的情況下,可向本文描 述之實施例添加額外組件及連接器。舉例而言,可在本發 明之任何實施例中包括一或多個led »熟習此項技術者亦 將瞭解’本文描述之多個組件及/或導線之功能性可加以 組合或分開。舉例而言’輸入端304可分成多個輸入端(例 如,電力輸入端及資訊輸入端),此將使得(例如)開關302 能夠獨立地將來自器件208之資訊提供至器件21〇並將來自 器件208之電力提供至器件212。 為補充上文論述之自動藍芽配對,圖4展示過程4〇〇。過 程400為可部分或完全由裝置(諸如分別在圖2及圖3中展示 之裝置200或300)之電路執行以根據藍芽協定將兩個器件 自動配對之說明性操作模式。由此,裝置之電路可用作在 於2006年8月30曰申請之共同讓渡之名為” pairing 〇f^ Specific DC voltage (eg, 4.7 volts, 4.5 volts, etc.), V3 is preferably less than VI but greater than V2. In some embodiments, output 236 is a wire that allows power to flow from switch 228 to 埠 206 (i.e., highest priority 埠). Thus, when at least one of devices 208 and 210 is coupled to device 2, switch 22 allows the device to receive power. The microcontroller 214 can cause the switch 228 to couple the line 230, line 232, or line 234 to the output 236. Figure 8 through Figure 15 discuss how the microcontroller 21 4 determines which input line is coupled to the output 236. . • In addition to charging the device, the voltage on any of the wires of device 200 can be used to provide information to any device coupled to device 200. For example, the voltage at output 236 (ie, Vx) can indicate to device 212 the type of communication protocol that is being used or will be used to provide information to device 212 (eg, *USB, serial, etc. as another For example, device 2 may cause device 212 to reset or recalibrate (eg,) the polarity of device 212 in response to a particular voltage or voltage range maintained at output 236. It is a common transfer of __^ U.S. Patent Application No. 128,157, doc -27, 1373924, to the name &quot;Systems and Methods f〇r Determining plus iguration of Electronic Connections&quot;, is described in the agent file number 104677-0015-101 (P4630US1). A system and method for resetting the polarity of a device is incorporated herein by reference in its entirety. Thus, the microcontroller 214 can notify the device 212 that the device 212 should be used, for example, by the switch 228. The type of data transfer protocol desired from output 224 and/or which wires of output 224 (when output 224 is a multi-wire bus) will carry information to benefit 2 12 . In some embodiments, device 200 will A booster 240 and a regulator 242 are included. The booster 240 can increase the voltage maintained on line 238 to a higher voltage (e.g., V3), which is then maintained on line 232. Regulator 242 The voltage on line 230 and/or line 232 can be reduced to any voltage referred to herein as Vy. Since charging different devices with different amounts of power is more efficient, this embodiment includes booster 240 and regulator 242. In other words, if you supply 5 volts to $〇, you can charge ip〇d most efficiently, and accessory devices (such as remote controls, Bluetooth headsets, etc.) can be most efficiently provided when 47 volts is supplied. Charging. It will be understood by those skilled in the art that the present invention can be used in any electric dust or any voltage range (eg, 4 7 volts, 4 6 .48 volts, 4.9-5.1 volts, 3.1-3.3 volts, 0-5.0 volts). , 5-12 volts, etc.) and facilitates power transfer at any current or any current range. In an alternate embodiment, booster 24 and/or regulator 242 may be omitted from device 200. Those skilled in the art will also Understand that V3 can be the same as... or ^^ Similarly, in an alternative embodiment t, V1 can be the same voltage as V2. J28l57.doc -28- 1373924 = simplified schematic block diagram of the circuit implemented in the device 3, the device 30G An illustrative example of an alternate embodiment of the present invention. The circuitry implemented in the device is similar to that implemented in the device 200 of FIG. 2, in that both the device 2 and the device 300 can be lightly coupled thereto. The door of the device: Beixun and power transmission are more convenient. Those skilled in the art will appreciate that similar or identical components can be utilized to perform similar or identical functions in various embodiments of the present invention. In particular, component 2 of Figure 3 is similar or identical to component 2 of Figure 2. Apparatus 300 includes 埠 202, 埠 204, 埠 206, device 208, device 210, device 212, microcontroller 214, line 216, line 218, switch 312, input 304, output 3 〇 6 and output 3 〇 8. The device 3 is different from the device 200 in that the device 300 includes fewer components than the device 2, and the switch 302 receives the input terminal 3 〇 4 as an input. Input 3〇4 can be a multi-wire bus (e.g., a busbar of '2, 3, 4, etc.) that carries information and power from device 208 (via 埠 202) to switch 302. The functionality of line 3〇4 is similar to the combination of lines 222 and 203 of Figure 2. Switch 302 is illustrated as having two outputs, namely outputs 3〇6 and 308. Output 306 allows switch 302 to transmit sfl and power to device 210 via port 204. Output 308 allows switch 302 to transmit information and power to device 212 via port 206. Switch 302 can interface input 304 with output 306 and/or output 308 based on an instruction sent by microcontroller 214 to switch 302 via a control line (not shown). The control line of device 300 is similar or identical to the control line described above in connection with device 2 。. </ RTI> </ RTI> </ RTI> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; For example, those skilled in the art will appreciate that additional components and connectors may be added to the embodiments described herein without departing from the spirit of the invention. For example, one or more of the LEDs can be included in any embodiment of the present invention. Those skilled in the art will also appreciate that the functionality of the various components and/or wires described herein can be combined or separated. For example, 'input terminal 304 can be divided into multiple inputs (eg, power inputs and information inputs) that will enable, for example, switch 302 to independently provide information from device 208 to device 21 and will come from Power to device 208 is provided to device 212. To complement the automatic Bluetooth pairing discussed above, Figure 4 shows the process 4〇〇. Process 400 is an illustrative mode of operation that may be performed, in part or in whole, by circuitry of a device, such as device 200 or 300 shown in Figures 2 and 3, respectively, to automatically pair two devices in accordance with a Bluetooth protocol. Thus, the circuit of the device can be used as the co-transfer of the application on August 30, 2006. "pairing 〇f

Wireless Devices Using a Wired Medium&quot;之美國專利申請 案第11/5 13,692號(下文中稱為&quot;,692申請案”)中更詳細地論 述之配對管理器,該申請案之全部内容以引用之方式併入 本文中。 過程4〇〇在步驟402處開始。在步驟4〇2中,可將兩個器 件(主器件及從屬器件)電耦接至一裝置。該裝置可與(例 如)上述裝置200或300類似或相同。主器件(有時稱為主機 益件)可為(例如)蜂巢式電話、電腦或滿足主器件之藍芽規 範疋義(亦即,藉由輪詢方案控制微微網(pic〇nd)實體通道 128157.doc -30· 1373924 上之訊務)之任何其他器件。從屬器件(有時稱為客戶器件) 可為(例如)無線耳機(諸如上文所描述之耳機)或滿足從屬 盗件之藍芽規範定義之任何其他器件。 回應於主器件及從屬器件電耦接及/或實體耦接至裝 置,裝置之微控制器(例如,微控制器214)可執行包括本文 論述之功能之任何功能。裝置之微控制器可(例如)識別每 一器件 '驗證每一器件、在器件之間建立通信路徑、將器 件置於高功率模式、重設器件之埠、對器件中之至少一者 的電池進行充電(例如,自主器件向從屬器件傳送電力), 等等。 在步驟404中,主器件偵測從屬器件之存在。在一些實 施例中,裝置中之電路由主器件用來偵測從屬器件。舉例 而言,裝置之微控制器可向主器件提供關於從屬器件之資 訊(例如,從屬器件之識別碼、從屬器件電耦接至裝置之 事實,等等)。在替代實施例中,主器件可在無裝置輔助 之情況下(例如,以無線方式)偵測從屬器件。 在步驟404之後,該過程進行至步驟4〇6。在步驟4〇6 中,主器件5旬問從屬器件之狀態。主器件可使用裝置之電 路來詢問從屬器件之狀態。在替代實施例中,主器件可在 不使用裝置之電路的情況下(例如’以無線方式)詢問從屬 器件。 在步驟408中,確定從屬器件是否已與主器件配對。當 主器件與從屬器件當前並未配對時,該過程進行至步驟 410 〇 128l57.doc .31 - 丄373924 在步驟410中,主器件將從屬器件置於可發現模式。主 器件可使用裝置之電路來將從屬器件置於可發現模式。舉 例而言,主器件可請求裝置之微控制器將從屬器件置於可 發現模式。在一些實施例中,主器件可在不使用裝置之電 路的情況下(例如,以無線方式)將從屬器件置於可發現模 式。在替代實施例(未在圖中展示)中,主器件可不將從屬 器件置於可發現模式,而依賴於裝置之微控制器自動將從 屬器件置於可發現模式。 在步驟4U中,主器件與從屬器件可根據藍芽協定彼此 配對。在一些其他實施例中,裝置之電路使配對過程之一 部分更加便利,且允許在裝置外部發生配對過程之其他部 分。舉例而言,裝置可確定從屬器件之藍芽PIN、向主器 件提供該藍芽PIN ’且接著允許主器件與從屬器件無線地 配對。作為另-實例,纟器件在裝置外部(例如,藉由確 定從屬器件之藍芽PIN)開始配對過程,接著使用裝置之内 部電路完成配對過程。在·692申請案中更詳細地論述了與 無線連接相結合使用有線連接將兩個器件配對。 裝置或主器件可確定從屬器件之藍芽piN。可藉由(例 如)試誤法(例如’嘗試不同藍芽piN直至確定正確piN,其 係藉由選擇第一藍芽PIN;冑第一藍芽⑽提供至第二器 件;自第二器件接收關於第—藍芽piN是否與第一器件之 藍芽PIN相同之指示;回應於第二器件指示第—藍芽削與 第器件之藍芽PIN不同而以另一藍芽piN再次重複該等步 驟’直至確定從屬器件之正確藍芽PIN)來確定從屬器件之 128157.doc •32· 1373924 監芽PIN »亦可藉由(例如)經由硬連線通信路徑自從屬器 件接收藍牙PIN(亦即’在建立硬連線通信路後之後,從屬 器件向另一器件或裝置提供其藍芽PIN)或熟習此項技術者 瞭解之任何其他方法或方法之組合來確定從屬器件之藍芽 PIN。 在替代實施例中,步驟412之整個配對過程在裝置外部 發生(例如,在主器件與從屬器件之間以無線方式發生)。 在其他替代實施例中,藉由裝置之電路來使整個配對過程 更加便利。 在主器件與從屬器件在步驟412中配對之後,主器件在 步驟414中與從屬器件鏈接。一旦建立了授權鏈接過程 400便在步騾416中結束。 返回步驟408,當主器件已與從屬器件配對時,該過程 進行至步驟41 8。在步驟418中,主器件檢查其與從屬器件 之鏈接狀態。在替代實施例中,裝置之微控制器檢查主器 件與從屬器件之間的鏈接狀態。在步驟42〇中確定主器件 是否與從屬器件鏈接。當主器件及/或裝置確定主器件已 鏈接至從屬器件時,過程400進行至步驟416並結束。 當主器件及/或裝置確定主器件尚未鏈接至從屬器件 時,該過程400進行至步驟414。在步驟414中,主器件與 從屬器件鏈接,且接著該過程在步驟416中結束。 熟習此項技術者將瞭解,過程4〇〇之任一步驟在進行之 則可月b需要使用者互動。舉例而言,在兩個器件在步驟 412中配對之前,主器件可提示使用者接受或拒絕主器件 128l57.doc -33- 1373924 與從屬器件配對。 自動藍芽配對之以上論述並不意欲為徹底的論述。為獲 得自動藍芽配對之更詳細解釋,請參見在2〇〇6年8月3〇曰 申請之名為&quot;Automated Pairing of Wireless Accessories with Host Device&quot;之美國專利申請案第u/513616號(客戶 檔案號碼P4220US1),該申請案之全部内容以引用之方式 併入本文中。 圖5a及圖5b分別展示對接器件(docking device)500及502 之說明性實例。對接器件500及502為其中實施上文結合圖 2、圖3論述之電路或其組合之電氣器件。對接器件5〇〇及 502與圖1所示之對接站1〇〇類似。對接器件5〇〇及5〇2包括 與上文結合圖1至圖3論述之埠202、204及206類似或相同 之埠 202、204 及 206。 對接器件500及502為其中實施上文結合圖2或圖3論述之 電路之電氣器件。器件(圖5a及圖5b中未展示,與上文結 合圖1及圖2描述之器件類似或相同)可耦接至對接器件5〇〇 及502之蟀202、204及206。對接器件500及502既而可如上 所述而使用’且使電氣器件之間的電力及資訊傳送更加便 利。 圖6a及圖6b分別展示電纜6〇〇及602之說明性實例《電纜 600及602為其中實施上文結合圖2、圖3論述之電路或其組 合之可攜帶式電氣器件。電纜6〇〇及602包括與上文結合圖 1至圖4論述之埠202、204及206類似或相同之埠202、204 及 206。 128157.doc -34- 1373924 圖6C展示圖6a中展示之電纜_之剖視圖。由此,崞 202、204及206與圖6a所示之槔相同。42〇2說明上文論述 之30接腳公連接器之實例,且淳2〇6說明上文(及在 P4672P1申請案及P4672p2申請案中)論述之對稱四接腳連 接态之實例。電路604位於電纜6〇〇内部,且可包括諸如一 或多個微控制器,、調節器及/或升壓電路之組件, 該等組件t之任-者可與上文論述之組件相同或實質上類 似舉例而&amp;,電路604可包括Sipex公司之調節器、τΐ公 司之MSP V126、Seiko公司之升壓電路、IntersU公司之 USB開關及各種其他電力組件。 器件(圖6a或圖6b中未展示,與上文結合圖1及圖2描述 之器件類似或相同)可經由埠2〇2、2〇4、2〇6耦接至電纜 600、602。電纜6〇〇及602既而可如上所述而使用,且使器 件之間的電力及資訊傳送更加便利。 圖7a及圖7b展示蜂巢式電話7〇〇在與器件212實體耦接前 後的說明性實例。器件212經由埠2〇6耦接至蜂巢式電話 700埠2〇6與上文結合圖2所描述之槔206類似或相同。器 件212可與上文結合圖2所論述之器件212類似或相同。如 上所述’器件212可為(例如)無線藍芽耳機。 可在諸如蜂巢式電話7〇0之器件中實施根據本發明之原 理之電路。蜂巢式電話7〇〇中之電路可如上所述用來使蜂 巢式電話700與器件212之間的電力及/或資訊傳送更加便 利°舉例而言,來自蜂巢式電話700之電池的電力可用於 對器件2 12之電池進行充電。作為另一實例,回應於將器The pairing manager is discussed in more detail in U.S. Patent Application Serial No. 11/5 13,692 (hereinafter referred to as &quot;, 692 Application), the entire disclosure of which is incorporated by reference. The method is incorporated herein. Process 4 begins at step 402. In step 4〇2, two devices (a master device and a slave device) can be electrically coupled to a device. The device can be, for example, described above. Device 200 or 300 is similar or identical. The master device (sometimes referred to as a host device) can be, for example, a cellular phone, a computer, or a Bluetooth specification that satisfies the master device (ie, control the pico by a polling scheme) Any other device in the network (pic〇nd) physical channel 128157.doc -30· 1373924. The slave device (sometimes referred to as the client device) can be, for example, a wireless headset (such as the headset described above) Or any other device that satisfies the definition of the Bluetooth specification of the pirate. In response to the primary and secondary devices being electrically coupled and/or physically coupled to the device, the microcontroller of the device (eg, the microcontroller 214) can execute Any of the functions described herein are included. The microcontroller of the device can, for example, identify each device 'verify each device, establish a communication path between the devices, place the device in a high power mode, reset the device, Charging a battery of at least one of the devices (eg, the autonomous device transmits power to the slave device), etc. In step 404, the master device detects the presence of the slave device. In some embodiments, the circuitry in the device The master device is used to detect the slave device. For example, the microcontroller of the device can provide information about the slave device to the master device (eg, the identification code of the slave device, the fact that the slave device is electrically coupled to the device, etc., etc. In an alternate embodiment, the master device can detect the slave device without device assistance (eg, wirelessly). After step 404, the process proceeds to step 4〇6. In step 4〇6 The master device 5 asks for the state of the slave device. The master device can use the circuit of the device to interrogate the state of the slave device. In an alternative embodiment, the master device can be left unused. In the case of a circuit of the device (eg, 'wirelessly'), the slave device is interrogated. In step 408, it is determined whether the slave device has been paired with the master device. When the master device and the slave device are not currently paired, the process proceeds to step 410. 〇 128l57.doc .31 - 丄 373924 The master slave device is placed in discoverable mode in step 410. The master device can use the device's circuitry to place the slave device in discoverable mode. For example, the master device can request The microcontroller of the device is placed in a discoverable mode. In some embodiments, the master device can place the slave device in a discoverable mode without using the circuitry of the device (eg, wirelessly). In an alternate embodiment (not shown), the master device may not place the slave device in discoverable mode, while the device dependent microcontroller automatically places the slave device in discoverable mode. In step 4U, the master and slave devices can be paired with each other according to the Bluetooth protocol. In some other embodiments, the circuitry of the device facilitates a portion of the pairing process and allows other portions of the pairing process to occur outside of the device. For example, the device can determine the Bluetooth PIN of the slave device, provide the Bluetooth PIN ' to the master device, and then allow the master device to wirelessly pair with the slave device. As a further example, the device begins the pairing process external to the device (e.g., by determining the Bluetooth PIN of the slave device), and then the pairing process is completed using the internal circuitry of the device. The use of a wired connection to pair two devices in conjunction with a wireless connection is discussed in more detail in the '692 application. The device or master device can determine the Bluetooth piN of the slave device. By, for example, trial and error (eg, 'try different Bluetooth piN until the correct piN is determined by selecting the first Bluetooth PIN; 胄 first blue bud (10) is provided to the second device; receiving from the second device An indication as to whether the first-blue piN is the same as the Bluetooth PIN of the first device; in response to the second device indicating that the first-blue bud is different from the Bluetooth PIN of the device, the steps are repeated again with another Bluetooth piN 'Up to determine the correct Bluetooth PIN of the slave device' to determine the slave device's 128157.doc •32· 1373924 monitor PIN PIN » can also receive the Bluetooth PIN from the slave device via, for example, a hardwired communication path (ie, ' After the hardwired communication path is established, the slave device provides its Bluetooth PIN to another device or device or any other method or combination of methods known to those skilled in the art to determine the Bluetooth PIN of the slave device. In an alternate embodiment, the entire pairing process of step 412 occurs outside of the device (e.g., occurs wirelessly between the master device and the slave device). In other alternative embodiments, the entire pairing process is facilitated by the circuitry of the device. After the master and slave devices are paired in step 412, the master device is linked with the slave device in step 414. Once the authorization link process 400 is established, it ends in step 416. Returning to step 408, when the master device has been paired with the slave device, the process proceeds to step 41 8 . In step 418, the master checks its link state with the slave device. In an alternate embodiment, the microcontroller of the device checks the status of the link between the master device and the slave device. It is determined in step 42 that the master device is linked to the slave device. When the master device and/or device determines that the master device is linked to the slave device, process 400 proceeds to step 416 and ends. The process 400 proceeds to step 414 when the master device and/or device determines that the master device has not been linked to the slave device. In step 414, the master device is linked with the slave device, and then the process ends in step 416. Those skilled in the art will appreciate that any step of the process can be performed on a monthly basis. For example, before the two devices are paired in step 412, the master device can prompt the user to accept or reject the master device 128l57.doc -33 - 1373924 paired with the slave device. The above discussion of automatic Bluetooth pairing is not intended to be a thorough discussion. For a more detailed explanation of the automatic Bluetooth matching, please refer to US Patent Application No. u/513616, entitled "Automated Pairing of Wireless Accessories with Host Device", filed on August 3, 2006. Customer Profile No. P4220US1), the entire contents of which is incorporated herein by reference. 5a and 5b show illustrative examples of docking devices 500 and 502, respectively. Docking devices 500 and 502 are electrical devices in which the circuits discussed above in connection with Figures 2, 3, or a combination thereof are implemented. The docking devices 5A and 502 are similar to the docking station 1A shown in FIG. The docking devices 5〇〇 and 5〇2 include 埠 202, 204, and 206 that are similar or identical to 埠 202, 204, and 206 discussed above in connection with Figures 1-3. Docking devices 500 and 502 are electrical devices in which the circuits discussed above in connection with FIG. 2 or FIG. 3 are implemented. The device (not shown in Figures 5a and 5b, similar or identical to the device described above in connection with Figures 1 and 2) can be coupled to ports 202, 204 and 206 of the docking devices 5A and 502. Docking devices 500 and 502 can be used as described above and make power and information transfer between electrical devices more convenient. Figures 6a and 6b show illustrative examples of cables 6 and 602, respectively. Cables 600 and 602 are portable electrical devices in which the circuits discussed above in connection with Figures 2, 3, or a combination thereof are implemented. Cables 6 and 602 include turns 202, 204, and 206 that are similar or identical to ports 202, 204, and 206 discussed above in connection with Figures 1-4. 128157.doc -34- 1373924 Figure 6C shows a cross-sectional view of the cable _ shown in Figure 6a. Thus, 崞 202, 204, and 206 are the same as those shown in Fig. 6a. 42〇2 illustrates an example of a 30-pin male connector discussed above, and 淳2〇6 illustrates an example of a symmetric four-pin connection state discussed above (and in the P4672P1 application and the P4672p2 application). The circuit 604 is located inside the cable 6〇〇 and may include components such as one or more microcontrollers, regulators, and/or boost circuits, which may be the same as those discussed above or Substantially similar to the example, the circuit 604 may include a regulator of Sipex Corporation, MSP V126 of the company, a boost circuit of Seiko Corporation, a USB switch of IntersU Corporation, and various other power components. The device (not shown in Figure 6a or Figure 6b, similar or identical to the device described above in connection with Figures 1 and 2) can be coupled to cables 600, 602 via 〇2〇2, 2〇4, 2〇6. Cables 6 and 602 can be used as described above, and facilitate power and information transfer between the devices. Figures 7a and 7b show illustrative examples of the cellular telephone 7A before and after being physically coupled to the device 212. Device 212 is coupled to cellular telephone 700埠2〇6 via 埠2〇6 to be similar or identical to 槔206 described above in connection with FIG. Device 212 can be similar or identical to device 212 discussed above in connection with FIG. As noted above, device 212 can be, for example, a wireless Bluetooth headset. The circuit according to the principles of the present invention can be implemented in a device such as a cellular telephone 7〇0. The circuitry in the cellular telephone 7 can be used to facilitate power and/or information transfer between the cellular telephone 700 and the device 212 as described above. For example, the power from the battery of the cellular telephone 700 can be used. The battery of device 2 12 is charged. As another example, responding to the device

128157.doc -35- 1373924 件2 12插入埠2〇6中,該雷踗π伯政姐1 通罨路可使蜂巢式電話700與器件212 之自動配對(如上文所論述)更加便利。 熟習此項技術者將瞭解,可在任何其他電氣器件(諸 如’⑽、電腦、附屬器件等)中包括上文論述之電路。亦 可在罪近固定可攜帶式或行動電源及/或可與其一起使用 之任何其他物件(例如,桌+、汽車儀錶盤、飛機坐椅、 壁裝電源插座等)_實施上文描述之電路。128157.doc -35- 1373924 piece 2 12 is inserted into 埠2〇6, which is more convenient for automatic pairing of cellular phone 700 with device 212 (as discussed above). Those skilled in the art will appreciate that the circuits discussed above can be included in any other electrical device (e.g., '(10), computer, accessory device, etc.). It is also possible to fix a portable or mobile power source and/or any other object that can be used with it (eg, table +, car dashboard, aircraft seat, wall outlet, etc.) .

圖8至圖15為說明根據本發明之原理之可用於使兩個或 兩個以上器件之間的資訊及/或電力交換更加㈣的各種 方法中之些方法的流程圖。圖8至圖11為說明在一或多 個器件耦接至裝置時可發生之步驟的流程圖。圖12至圖Η 為說明在-或多個器件自裝置去㈣可發生之步驟的流程 圖。熟習此項技術者將理解,亦可在無本文描述之裝置的 情況下使用與本文描述之方法類似或相同之方法。8 through 15 are flow diagrams illustrating methods of various methods that may be used to further exchange information and/or power between two or more devices in accordance with the principles of the present invention. 8 through 11 are flow diagrams illustrating the steps that may occur when one or more devices are coupled to a device. Figure 12 through Figure are flow diagrams showing the steps that can occur in (e) the device or devices. Those skilled in the art will appreciate that methods similar or identical to those described herein can also be used without the devices described herein.

轉至圖8,在無器件耦接至裝置(例如,圖2所示之裝置 2〇〇或圖3所示之裝置300)時,該過程在步驟8〇2處開始。 該裝置較佳處於斷電模式。在斷電模式中,裝置之組件 (例如,埠202、埠204、埠206、微控制器214、升壓器 240、調節器242、無線發射器/接收器,等)較佳不接收電 力且不行使功能。在替代實施例中,裝置可具有其自身之 電源(例如’電池、電容器等)(未圖示),此允許裝置之任 何組件在無器件耦接至裝置時行使功能。 熟習此項技術者將瞭解,該過程可自不同於步驟8〇2之 步驟開始。舉例而言,當該過程在器件已耗接至中等優先 128157.doc • 36 - 1373924 級埠之情況下開始時或當裝置被整合至中等優先級器件 (諸如,iPod或圖7a及圖7b所示之蜂巢式電話700)中時,該 過程可自步驟808(下文論述)開始。 在步驟804中’將第一器件耦接至裝置。為補充上文參 考圖2之優先級論述,本文論述之過程係基於對裝置之埠 區分優先級之裝置。步驟806說明可回應於第一器件輕接 至最低優先級埠(例如,埠202)、中等優先級埠(例如,埠 2〇4)還是最高優先級埠(例如,埠2〇6)而確定之處理方向。 該過程中接下來發生之步驟係基於第一器件耦接至哪一 淳。Turning to Figure 8, when no device is coupled to the device (e.g., device 2A shown in Figure 2 or device 300 shown in Figure 3), the process begins at step 8〇2. The device is preferably in a power down mode. In the power down mode, components of the device (eg, 埠 202, 埠 204, 埠 206, microcontroller 214, booster 240, regulator 242, wireless transmitter/receiver, etc.) preferably do not receive power and Do not exercise the function. In an alternate embodiment, the device may have its own power source (e.g., 'battery, capacitor, etc.) (not shown), which allows any component of the device to function when no device is coupled to the device. Those skilled in the art will appreciate that the process can begin with a different step than step 8.2. For example, when the process begins when the device has been drained to medium priority 128157.doc • 36 - 1373924 or when the device is integrated into a medium priority device (such as iPod or Figure 7a and Figure 7b) In the illustrated cellular telephone 700), the process can begin at step 808 (discussed below). In step 804 'the first device is coupled to the device. To complement the priority discussion above with reference to Figure 2, the process discussed herein is based on prioritizing devices for devices. Step 806 illustrates that it can be determined in response to whether the first device is tapped to a lowest priority 埠 (eg, 埠 202), a medium priority 埠 (eg, 埠 2 〇 4), or a highest priority 埠 (eg, 埠 2 〇 6) Processing direction. The next step in the process is based on which 第一 the first device is coupled to.

當第-器件搞接至最低優先級埠時,該過程自步驟8〇&lt; 移至步驟808。在一些實施例中,在步驟8〇8中藉由由第 一器件提供或取自第一器件之電力啟動(亦即,通電)裝置 之微控制器(例如,微控制器214)及調節器(例如,調節器 242)。在步制8中,裝置亦使裝置之痒之間的電力傳送 更加便利。舉例而言’可來自第—器件(例如,器件叫之 電力(例如,νυ提供至中等優先級埠(經由(例如)圖2所示 之線路叫及最高優先級槔(經由(例如)諸如開關22〇之電 =關及㈣器,藉此允許例如較少電力提供至最高 埠)。在步讀中,裝置亦可藉由在最低優先級璋 。另埠之間建立資訊路徑來準備使第_器件盘另一 器件(尚未連接)之間的資訊傳送更加便利。舉例而二,資 =:,開關&quot;Ο可將最高優先級埠與中等優先級槔 (藉由(例如)將圖2所示之輸入⑽輕接至輸出端 128157.doc -37- 1373924 2 26)。在一些實施例中,微控制器可在步驟808中與第一 器件通信(如上文參考圖2所論述)。 在替代實施例(諸如’圖3所說明之實施例)中,在步驟 808中’可將最低優先級埠之電力及資訊線路皆耦接至較 高優先級皡中之一或多者(例如,經由開關302)。When the first device is brought to the lowest priority, the process moves from step 8 &lt; to step 808. In some embodiments, a microcontroller (eg, microcontroller 214) and a regulator that initiates (ie, energizes) the device by power provided by or from the first device in step 8〇8 (eg, regulator 242). In step 8, the device also facilitates power transfer between the itching of the device. For example, 'may come from the first device (eg, the device calls power (eg, νυ provides to medium priority 埠 (via, for example, the line shown in Figure 2 and the highest priority 槔 (via (for example) such as a switch 22 〇 = = off and (4), thereby allowing, for example, less power to be supplied to the highest 埠). In step reading, the device can also be prepared by making an information path between the lowest priority 埠. _ The device is more convenient to transfer information between the other device (not yet connected). For example, the value =:, switch &quot; Ο can be the highest priority 中等 and medium priority 槔 (by (for example) will Figure 2 The input (10) shown is lightly coupled to the output 128157.doc -37-1373924 2 26). In some embodiments, the microcontroller can communicate with the first device in step 808 (as discussed above with respect to FIG. 2). In an alternate embodiment, such as the embodiment illustrated in FIG. 3, in step 808 'the lowest priority power and information lines can be coupled to one or more of the higher priority levels (eg, Via switch 302).

在步驟810中,將第二器件耦接至裝置。該過程在圖9中 之步驟902繼續’該步驟902說明可回應於第二器件耗接至 哪一埠而確定之處理方向。 當第一器件耗接至中等優先級埠時,步驟902之後為步 驟904。在步驟904中’裝置可(例如)使第一與第二器件之 間的通信(例如,USB通信)更加便利及/或直接與第二器件 通信。如上文參考圖2所描g,微控制器可在器件與微控 制器及/或另一器件之間建立通信路徑。該通信路徑既而 可用於(例如)請求特定量之電力(特定電流及,或電壓)等。 在步驟9〇4中,裝置亦可使藉由來自第-器件之電力(其在 :些實施例中在步驟908中被提供至中等優先級蟫)對第二 益件進行充電更加便利,啟動升堡器(例如’升麗器24〇’ ==器㈣接至最高優先料或第—器件自最低優先 茫置去Γ時且調節升磨器之輸出(例如,當第-器件自該 裝置去麵時’此可將提古 (例如)V2)。 &amp;供至“優先級埠之電絲持在 在步驟9 06中,蔣笛— 造 將第二盗件耦接至裝置之最高優先铋 埠。回應於第三器件(例如 “優先級 繼續至步驟908。 ° )輕接至裝置,該過程 »28157^00 -38- (S ) 1373924 在步驟908中,微控制器較佳建立與第三器件之通信路 搜’且(例如’使用串列通信協定)與第三器件通信。該裝 置亦可允許第二器件與第三器件通信(直接或間接地通 信,如上文參考圖2所論述)。 在第二器件耦接至裝置之前提供至最高優先級埠之電壓 可向第三器件指示第三器件應使用哪一標準及/或協定在 步驟908中與裝置及/或其他器件通信。與第三器件通信之In step 810, the second device is coupled to the device. The process continues at step 902 in Figure 9. 'This step 902 illustrates the processing direction that can be determined in response to which of the second devices is being used. Step 902 is followed by step 904 when the first device is consuming medium priority 埠. In step 904, the device can, for example, facilitate communication (e.g., USB communication) between the first and second devices and/or directly communicate with the second device. As described above with reference to Figure 2, the microcontroller can establish a communication path between the device and the microcontroller and/or another device. The communication path can be used, for example, to request a specific amount of power (specific current and/or voltage), and the like. In step 9.4, the device may also facilitate charging of the second benefit by power from the first device (which is provided to the medium priority 步骤 in step 908 in some embodiments). a lifting device (eg, 'Aurora 24〇' == device (4) is connected to the highest priority material or the first device is removed from the lowest priority device and adjusts the output of the sharpener (for example, when the first device is from the device) When going to the surface, 'this can be Tigu (for example) V2). &amp; to the "priority of the wire is held in step 096, Jiang Di - the highest priority for the coupling of the second thief to the device In response to the third device (eg, "Priority continues to step 908. °") to the device, the process »28157^00 -38- (S) 1373924 In step 908, the microcontroller is preferably built and The third device communicates with the third device (eg, using a serial communication protocol). The device can also allow the second device to communicate with the third device (directly or indirectly, as described above with reference to FIG. 2 Discuss) providing the highest priority 埠 voltage before the second device is coupled to the device Indicating to the third device using the third device which should be the standard and / or protocol in step 908 and / or other devices in communication with the device. The third device communicating with

裝置及/或其他器件可(例如)識別第三器件、驗證第三器件 及/或執行與第三器件通信所需之任何其他必需動作(例 如’重設第三器件之埠、與第三器件交握、與第三器件協 商充電(亦即,傳達應向第三器件提供多少電力),及/或與 第二器件交換任何其他資訊(包括指令))。回應於建立與第 三器件之通信路徑及/或與第三器件之通信交換,該裝置 可允許向第二器件提供更多電力(例如,藉由對向調節器 提供之電力解除調節)。允許向第三器件提供更多電力(亦The device and/or other device can, for example, identify the third device, verify the third device, and/or perform any other necessary actions required to communicate with the third device (eg, 'reset the third device, and the third device The handshake, negotiation with the third device (ie, conveying how much power should be provided to the third device), and/or exchanging any other information (including instructions) with the second device). In response to establishing a communication path with the third device and/or a communication with the third device, the device may allow more power to be provided to the second device (e.g., by deregulating the power provided by the opposing regulator). Allow more power to be supplied to the third device (also

即’更高電壓(例如,V3)及/或電流)可使第三器件得以更 快速地充電。 返回步驟902,可將待耦接至裝置之第二器件耦接至最 高優先級埠。當將第二器件搞接至最高優先料時,在該 過程中繼步驟902之後為步驟91〇。 在步驟910中,微控制器可建立允許微控制器(使用⑽ 如)刪協定、不同之串列通信協定或任何其他通信協定) 與第二器件通信之通信路徑n實施例中該裝置可 建立允許第-器件直接或間接與第二器件(例如,二⑵ 128157.doc •39· (S ) 1373924 通信之通信路徑(如上文參考圖2所論述)。 一如上文參考步驟908所描述,當第二器件初始耦接至最 局優先級埠時在該埠上存在之電壓可向第二器件指示第二 • ·器件應使用哪—標準及/或協定在步驟9H)中與微控日制以 . 帛―11件通信。在微㈣器及/或第-器件與第二器件通 • 信之後,可藉由微控制器對提供至最高優先級埠之電力 (完全或部分地)解除調節,藉此允許第二器件得以更快速 地充電。 纟步驟912中,將第三器件耦接至裝置之中等優先級 彳。喊於第三H件⑼如,器件21_接至巾等優先級 埠,微控制器可藉由(例如)調節提供至第二器件之電力、 更新與第二器件之通信路徑或指示第二器件重設其璋而暫 時中斷或減慢對第二器件之充電。 步驟912亦可包括:纟第三器件與微控制器及/或其他器 2之間建立通信路徑,中止第一器件與第二器件之間的通 • L (此情形可在(例如)開關220使輸入端222自輸出端224去 輕時出現),及使第-器件與第三器件之間的通信更加便 利(例如,藉由使用開關22〇將輸入端222耦接至輸出端 • 226)。在與第三器件通信時,微控制器及/或其他器件中之 &quot; 一者可(例如)協商對第三器件之充電(例如,確定第三器件 為否需要充電、第三器件應接收及/或提供之電量等)。回 應於與第三器件之協商,裝置可使至及/或自第三器件之 電力傳送更加便利。在步驟9 i 4中,可恢復微控制器與第 一益件之間的通信(該通信可包括資訊及/或指令之任何交 128157.doc -40· 1373924 換)’且可繼續對第二器件進行充電。 返回步驟806,可將耦接至裝置之第一器件耦接至裝置 之中等優先級埠。當第一器件(例如,器件21〇)耦接至中等 優先級埠時’步驟806之後為步驟812。 回應於第一器件耦接至中等優先級埠,微控制器、升壓 器及調節器可在步驟812中被啟動β微控制器亦可建立與 第一器件之通信路徑,並與第一器件協商電力交換細節 (例如,第一器件將向其他器件提供及自其他器件接收之 電壓及電流之量,等)。 作為微控制器與第一器件進行通信之結果,第一器件可 向升壓器輸出電力(例如,給定電流下之V2)。升壓器接著 可增加電力(例如,增加至V3),並將該電力(例如,給定 電流下之V3)提供至調節器。調節器可調節電力(例如,調 節至V2),並接著在預期器件耦接至最高優先級埠之情況 下將該電力(例如,給定電流下之V2)提供至最高優先級 埠。 在步驟8!4中’將第二器㈣接至裝置。該過程在圖ι〇 中之步驟1002繼續。步驟1〇〇2說明可基於第二器件麵接至 哪一璋而確定之處理方向。 當第二器件耦接至最低優先級埠時,在該過程中,步驟 1002之後為步驟讓。在步驟刪中,微控制可(例如) 與第-器件建立-或多個通信路徑’使得第一與第二器件 之間的通ί“例如’ USB通信)更加便利及/或直接與第二器 件通信(該通信可包括(例如)協商自第二器件之電力傳 128157.doc 1373924 送)。步_04亦可包括以自第三器件之電力對 件進行充電(經由(例如)圖2所示之線路236或圖3所 關302)。 第一器 示之開 在步驟1006中,將第三 痒。回應於第三器件(例如 進行至步驟1008。 器件耦接至裝置之最高優先級 ,器件212)耦接至裝置,該過程That is, a higher voltage (e.g., V3) and/or current allows the third device to be charged more quickly. Returning to step 902, the second device to be coupled to the device can be coupled to the highest priority. When the second device is tapped to the highest priority, step 91 is followed by the process relay step 902. In step 910, the microcontroller can establish a communication path that allows the microcontroller to communicate with the second device using a (10) protocol, a different serial communication protocol, or any other communication protocol. A communication path that allows the first device to communicate directly or indirectly with a second device (eg, two (2) 128157.doc • 39 (S) 1373924 (as discussed above with reference to FIG. 2). As described above with reference to step 908, The voltage at which the second device is initially coupled to the most prioritized 埠 can indicate to the second device that the second device should be used. • The standard and/or protocol in step 9H) and the micro-control date. With . 帛 - 11 pieces of communication. After the micro-fourth device and/or the first device and the second device communicate with each other, the power supplied to the highest priority 埠 can be de-tuned (fully or partially) by the microcontroller, thereby allowing the second device to be Charge faster. In step 912, the third device is coupled to the device and the like priority 彳. Shouting at the third H piece (9), for example, the device 21_ is connected to a priority such as a towel, the microcontroller can adjust the power supplied to the second device, for example, by adjusting the communication path to the second device or by indicating the second The device resets its turn and temporarily interrupts or slows down the charging of the second device. Step 912 can also include: establishing a communication path between the third device and the microcontroller and/or other device 2, discontinuing the pass between the first device and the second device (this may be, for example, at switch 220) Enabling input 222 when light is removed from output 224) and facilitating communication between the first device and the third device (e.g., by coupling switch 22 to input 222 to output 226) . When communicating with a third device, one of the microcontrollers and/or other devices can, for example, negotiate to charge the third device (eg, determine if the third device requires charging, and the third device should receive And/or the amount of electricity supplied, etc.). In response to negotiation with the third device, the device facilitates power transfer to and/or from the third device. In step 9 i 4, the communication between the microcontroller and the first benefit component can be resumed (the communication can include any exchange of information and/or instructions 128157.doc -40· 1373924) and can continue to the second The device is charged. Returning to step 806, the first device coupled to the device can be coupled to a priority 埠 in the device. When the first device (e.g., device 21A) is coupled to a medium priority, step 806 is followed by step 812. In response to the first device being coupled to a medium priority, the microcontroller, booster, and regulator can be enabled in step 812. The beta microcontroller can also establish a communication path with the first device, and with the first device. Negotiate power exchange details (eg, the amount of voltage and current that the first device will provide to and receive from other devices, etc.). As a result of the microcontroller communicating with the first device, the first device can output power to the booster (e.g., V2 at a given current). The booster can then increase the power (e.g., increase to V3) and provide the power (e.g., V3 at a given current) to the regulator. The regulator can adjust the power (e.g., adjust to V2) and then provide the power (e.g., V2 at a given current) to the highest priority 在 if the intended device is coupled to the highest priority. Connect the second device (4) to the device in step 8!4. The process continues at step 1002 in Figure ι. Step 1 〇〇 2 illustrates the processing direction that can be determined based on which side of the second device is connected. When the second device is coupled to the lowest priority, in the process, step 1002 is followed by a step. In the step of deleting, the micro-control can, for example, establish a - or multiple communication paths with the first device - to make the communication between the first and second devices "eg, USB communication" more convenient and/or directly related to the second Device communication (which may include, for example, negotiation of power transfer from the second device 128157.doc 1373924). Step_04 may also include charging the device with power from the third device (via, for example, Figure 2 Line 236 or 302 is closed.) The first device is shown in step 1006, which will be the third itching. In response to the third device (eg, proceeding to step 1008. The device is coupled to the highest priority of the device, Device 212) is coupled to the device, the process

在步驟画中,微控制器與第三器件建立一或多個通信 路徑’使第三器件與微控制器及/或其他器件之間的通作 (該通信包括(例如)協商至第三器件之電力傳送)更加便 利如上所述’第三器件㈣至最高優先料時正提供至 最高優先級埠之電力(例如,給定電流下之V3)可向第I器 件指示應使用哪-通信協定及/或標準與微控制器及/或^ 他器件通信。微控制器接著可藉由(例如)對來自㈣^In the step drawing, the microcontroller establishes one or more communication paths with the third device to enable communication between the third device and the microcontroller and/or other devices (the communication includes, for example, negotiation to the third device) Power transfer) is more convenient as described above - 'The third device (four) to the highest priority material is providing the highest priority 埠 power (for example, V3 at a given current) can indicate to the I device which communication protocol should be used And/or standard communication with the microcontroller and/or other devices. The microcontroller can then be followed by (for example) the pair (4)^

電力(元全或部分地)解除調節而增加提供至最高優先級埠 之電力(例如,增加至給定電流下之V3),並使第三器件之 迅速充電更加便利。 返回步驟麵,f將輕接至裝置之第二器件麵接至最高 優先級埠時,在該過程中,在步驟1〇〇2之後為步驟ι〇ι〇〇 在步驟1010中,微控制器可與第二器件建立通信路徑, 並使與第二器件之通信更加便利。如上所述,微控制器可 在與第二器件通信之後對提供至最高優先級埠之電力解除 調卽,並開始以由第一器件提供之電力對第二器件進行更 快速之充電。 在步驟1012中,將第三器件耦接至裝置之最低優先級 I28157.doc -42· 1373924 埠’且作為回應’該過程進行至步驟1〇14。 在步驟1014中,微控制器可建立與第三器件之一或多個 通信路徑,使第三器件與第一器件(例如,經由開關諸 .· 如圖2之開關22〇或圖3之開關302)及/或微控制器之間的通 .· 信更加便利。裝置亦可使第二器件之充電(例如,經由如 圖2之線路230之硬連線連接或如圖3之開關3〇2之開關)更 - 加便利。 φ 返回圖8之步驟8〇6,可將耦接至裝置之第一器件耦接至 裝置之最尚優先級埠。當第一器件(例如,器件2丨2)耦接至 最问優先級槔時’該過程自步驟806轉至步驟8 16。 在一些實施例中,當第一器件耦接至最高優先級琿時, 裝置保持處於斷電模式(在上文參考步驟8〇2進行了論述)。 藉由使裝置處於斷電模式,第一器件不耗費任何電力。此 方法為保證耦接至最高優先級埠之器件僅接收電力而不向 裝置或任何其他器件提供電力之方法之一實例。 • 熟習此項技術者將瞭解,在替代實施例中,耦接至最高 優先級埠之器件可基於(例如)耦接至最高優先級埠之器件 可分讓之超額電力、與裝置進行通信之需要或出於任何其 他原因而向裝置及/或任何其他器件提供電力。在此等替 .. 代實施例中,微控制器可僅向耦接至最高優先級埠之器件 請求電力,直至(例如)將第二器件耦接至較低優先級埠、 直至第一器件無超額電力或具有一定量之超額電力、直至 經過給定之時間、直至微控制器完成與耦接至最高優先級 埠之器件的通信(例如,識別、驗證、重設等),或直至發 128157.doc -43· 1373924 生任何其他事件。 在步驟818中,將第二器件耦接至裝置,且該過程在圖 11中繼續。圖11之步驟1102說明可基於第二器件耦接至哪 一槔而確定之處理方向。回應於第二器件耦接至最低優先 級埠,該過程進行至步驟1104。The power (in whole or in part) is de-tuned to increase the power supplied to the highest priority (e.g., to V3 at a given current) and to facilitate rapid charging of the third device. Returning to the step surface, f will be lightly connected to the second device of the device to the highest priority, in the process, after step 1〇〇2 is step ι〇ι〇〇 in step 1010, the microcontroller A communication path can be established with the second device and communication with the second device is facilitated. As described above, the microcontroller can de-assert the power provided to the highest priority after communicating with the second device and begin charging the second device more quickly with the power provided by the first device. In step 1012, the third device is coupled to the lowest priority of the device, I28157.doc - 42 · 1373924 埠' and in response, the process proceeds to step 1 〇 14. In step 1014, the microcontroller can establish one or more communication paths with the third device to cause the third device to interact with the first device (eg, via a switch, such as switch 22 of FIG. 2 or switch of FIG. 3). 302) and / or the communication between the microcontroller is more convenient. The device may also facilitate charging of the second device (e.g., via a hardwired connection such as line 230 of Figure 2 or a switch of switch 3 &lt; 2 of Figure 3). φ returns to step 8〇6 of Figure 8, which couples the first device coupled to the device to the highest priority of the device. When the first device (e.g., device 2丨2) is coupled to the most prioritized priority ’, the process proceeds from step 806 to step 816. In some embodiments, when the first device is coupled to the highest priority, the device remains in the power down mode (discussed above with reference to step 8.2). The first device does not consume any power by placing the device in a power down mode. This method is one example of a method of ensuring that a device coupled to the highest priority 仅 receives power only without providing power to the device or any other device. It will be appreciated by those skilled in the art that, in alternative embodiments, a device coupled to the highest priority can be coupled to the device based on, for example, a device coupled to the highest priority device. Power is provided to the device and/or any other device for or for any other reason. In this alternative embodiment, the microcontroller can only request power from the device coupled to the highest priority, until, for example, coupling the second device to a lower priority, until the first device No excess power or a certain amount of excess power until a given time has elapsed until the microcontroller completes communication with the device coupled to the highest priority (eg, identification, verification, reset, etc.), or until 128157 .doc -43· 1373924 Any other event. In step 818, the second device is coupled to the device and the process continues in FIG. Step 1102 of Figure 11 illustrates the processing direction that can be determined based on which device the second device is coupled to. In response to the second device being coupled to the lowest priority, the process proceeds to step 1104.

在一些實施例中,在該過程之步驟11 〇4中,啟動微控制 及調節器。在一些實施例中,微控制器在第一器件與微 控制器及/或第二器件之間建立通信路徑。微控制器亦可 在第二器件與微控制器之間建立通信路徑。在建立通信路 徑之後,微控制器接著可使器件及/或其自身之間的(直接 或間接)通信(例如,經由圖2所說明之開關22〇及/或線路 2 18)更加便利。在步驟11〇4中,微控制器亦可使自第二器 件至第一器件之電力傳送(例如,經由圖2所說明之開關 220或圖3所說明之開關3〇2)更加便利,藉此以來自第二器 件之電力對第-器件進行充電。在—些實施例中,微控制In some embodiments, the micro-controller and regulator are activated in step 11 该4 of the process. In some embodiments, the microcontroller establishes a communication path between the first device and the microcontroller and/or the second device. The microcontroller can also establish a communication path between the second device and the microcontroller. After establishing the communication path, the microcontroller can then facilitate (direct or indirect) communication between the device and/or itself (e.g., via switch 22A and/or line 2 18 illustrated in Figure 2). In step 11〇4, the microcontroller can also facilitate the power transfer from the second device to the first device (eg, via the switch 220 illustrated in FIG. 2 or the switch 3〇2 illustrated in FIG. 3). This charges the first device with power from the second device. In some embodiments, micro-control

=可在預期第三器件搞接至裝置之情況下向中等優先級痒 k供電力(例如,經由線路23 〇)。 在步仙06中,將第三器件輕接至裝置之中等優先級 埠回應於第三器件搞接至裳置之中等優先級蜂,該過程 進行至步驟】108。 隹步驟1108中 紙利ΤΓ …认丨丨〜时卯1牡乐二态仵 ,、微控制器及/或一或多個其他器件之間建立通信路徑。 =立通信路徑之後’微控制器接著可使與第三器件之通 力便利。在—些實施例中,微控制器與第三器件通 128157.doc • 44 - (s) 1373924 在-些實施例中,微控制器可允許第三器件與第一及 .或第—器件(直接或間接)通信,此可能要求微控制器中止 二或中斷第一與第二器件之間的通信。舉例而言當第 Γ牛(亦即ϋ件212)經由開關(例如,圖2所說明之開關 220或圓3所說明之開關地)與第二器件(亦即,器件208)直 接通信時,微控制器(例如,微㈣器214)可中斷第一與第 二器件之間的直接通信,使第二與第三器件之間的直接通 信(例如,經由開關220)更加便利’且接著使第一與第三器 件之間的間接通信(例如,藉由使用圖2所示之線路…、 218及224)更加便利。最後,在步驟&quot;^中微控制器使 自第一 件至第二器件之電力傳送更加便利,且第三器件 接收電荷。 返回步驟1102,當將耦接至裝置之第二器件耦接至中等 優先’’及淳時’该過程在步驟11〇2之後進行至步驟 在步驟1110中,啟動微控制器、升壓器及調節器。微控 Γ无而*7在建立相應通仏路徑之後使其自身與第二器件 之間及/或第-與第二器件之間的(直接或間接)通信更加便 利。在一些實施例中,微控制器亦可在其自身與第一器件 之間建立通信路徑,且接著使微控制器與第一器件之間的 通仏更加便利。在一些實施例中,在建立與第一器件(及 U控制器及/或第二器件)之通信之後,微控制器可對提供 至最鬲優先級埠之電力解除調節,並開始以由第二器件提 供之電力對第一器件進行充電。 在步驟1112中,將第三器件耦接至裝置之最低優先級 128157.doc •45-= The medium priority itch k can be powered (eg, via line 23 在) if the third device is expected to interface to the device. In Step Xian 06, the third device is lightly connected to the device and the like, and the third party is connected to the priority bee in the middle of the device, and the process proceeds to step 108.隹 In step 1108, a communication path is established between the paper 丨丨 丨丨 卯 卯 卯 牡 牡 、 、 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , = After the communication path, the microcontroller can then facilitate the communication with the third device. In some embodiments, the microcontroller is in communication with the third device 128157.doc • 44 - (s) 1373924 In some embodiments, the microcontroller may allow the third device to interact with the first and/or the first device ( Direct or indirect) communication, which may require the microcontroller to suspend or interrupt communication between the first and second devices. For example, when the yak (i.e., element 212) is in direct communication with the second device (i.e., device 208) via a switch (e.g., switch 220 illustrated by Figure 2 or switch 3), A microcontroller (eg, micro-four 214) can interrupt direct communication between the first and second devices, facilitating direct communication between the second and third devices (eg, via switch 220) and then enabling Indirect communication between the first and third devices (e.g., by using lines ..., 218, and 224 shown in Figure 2) is more convenient. Finally, in the step &quot;^ the microcontroller facilitates power transfer from the first to the second device, and the third device receives the charge. Returning to step 1102, when the second device coupled to the device is coupled to the medium priority ''and 淳', the process proceeds to after step 11 至 2 to the step in step 1110 to start the microcontroller, the booster, and Regulator. The micro-control Γ 而 and *7 facilitates (direct or indirect) communication between itself and the second device and/or between the first and second devices after establishing the corresponding overnight path. In some embodiments, the microcontroller can also establish a communication path between itself and the first device, and then facilitate communication between the microcontroller and the first device. In some embodiments, after establishing communication with the first device (and the U controller and/or the second device), the microcontroller can de-regulate the power provided to the last priority, and begin with The power provided by the second device charges the first device. In step 1112, the third device is coupled to the lowest priority of the device 128157.doc • 45-

取硬連線連接)更加便利。It is more convenient to take a hard connection.

去輕時可發生之步驟。 或多個器件自本文中參考本發明 ,與裝置200類似或相同之裝置) 在器件耦接至裝置之三個埠中之每一 出於說明之目的, 者之情況下’移除器件之過程自步驟12〇2開始。熟習此項 技術者將瞭解,當僅有—或兩個純至裝置之器件時,當 使第一器件自裝置去耦時,圖12至圖15所示之過程可自不 同步驟(亦即,不同於步驟12〇2)開始。 在步驟1202中,裝置正如上所述使器件之間的電力及資 訊傳送更加便利。在步驟1204中,使第一器件自裝置去 耦。步驟1206說明可回應於第一器件自裝置之最低優先級 埠(例如,埠202)、中等優先級埠(例如,埠2〇4)還是最高 優先級埠(例如’埠206)去耦而確定之處理方向。 ¥第一器件係自最低優先級埠去耗時,該過程自步驟 1 206進行至步驟1208。在一些實施例中,在步驟12〇8,微 控制器(例如,微控制器214)確定第一器件已自裝置去耦。 微控制器可回應於(例如)器件(例如,經由最低優先級蟑或 128157.doc -46· 件正^方式)向微控制器發送信號以向微控制器通知該器 (或已經)去輕、微控制器不再自已去麵器件接收通 (;如微控制器自使用者接收器件正在(或已經則之指示 再相接至彈/按紐)、另一器件向微控制器通知第一器件不 至裝置(例如,在該器件向其他器件傳達該器件已 何盆他不〜再向其他器件供應電荷等之後)或藉由任 x而確疋該15件正在(或已經)自裝置去耦。孰習 此項技術者將理解’此確定可無關於器件自哪一埠(亦 κ卩’第第二或第三)去耗或器件何時去耗而發生。 第-器件係自最低優純痒去 搞’自最低優先料提供至最高優先料之電力被中止, 7防止輕接至中等優先級埠之器件被充電,且微控制器 h止使至及自最低優先級埠之所有通信更加便利。 在步驟1210,使第二器件自裝置去耗,且該過程在圖13 中繼續。步驟1302說明可回應於第二器件自哪一淳去耗而 確定之處理方向。 田第一器件係自中等優先級埠去耦時,步驟13〇2之後為 步驟1304。在步驟1304中,微控制器可確定第二器件已自 中等優先級埠α。回應於此確定,微控制H將認識到耦 接至裝置之唯-器件係、輕接至最高優S級埠,且較佳地, 微控制器將裝置之所有組件(例#,升壓器、調節器、微 控制器等)斷電。此稱為斷電模式。如上所述,參考圖6, 斷電模式可幫助防止自耗接至最高優先級瑋之器件獲得電 力。但如上所述,在一些替代實施例中,裝置不可自動進 128157.doc •47· 1373924 入斷電模式(例如,當裝置包括電池時,等等)。 在步驟1306中,使第三器件 n 自裝置之隶高優先級埠去 輕,且在步㈣财,裝置保持處於斷電模式中。 返回步驟1302中,自裝詈丰紅+你 , &amp;置去輕之第二器件可係自最高優 先級埠去耦。當第二器件係自悬其 目取尚優先級埠(例如,埠206) 去輕時’該過程在步驟⑽之後進行至步驟ΐ3ι〇。The steps that can occur when going light. Or a plurality of devices from which the device is referred to herein, similar or identical to device 200) the process of removing the device in the case where the device is coupled to each of the three devices of the device for illustrative purposes. Start with step 12〇2. Those skilled in the art will appreciate that the process illustrated in Figures 12 through 15 can be performed from different steps when only the first device is decoupled from the device when there are only - or two devices that are pure to the device (i.e., Start with step 12〇2). In step 1202, the device facilitates power and information transfer between devices as described above. In step 1204, the first device is decoupled from the device. Step 1206 illustrates that the first device can be determined in response to the lowest priority 埠 (eg, 埠 202), medium priority 埠 (eg, 埠 2 〇 4), or highest priority 埠 (eg, '埠 206) decoupling of the first device. Processing direction. The first device is time consuming from the lowest priority, and the process proceeds from step 1 206 to step 1208. In some embodiments, at step 12A8, the microcontroller (e.g., microcontroller 214) determines that the first device has been decoupled from the device. The microcontroller can send a signal to the microcontroller in response to, for example, a device (eg, via a lowest priority 蟑 or 128157.doc -46) to notify the microcontroller that the device is (or has been) light The microcontroller no longer receives the device by itself (if the microcontroller receives the device from the user (or has already indicated that it is connected to the bomb/button), the other device notifies the microcontroller of the first The device does not go to the device (for example, after the device communicates to other devices that the device has not been charged, and then supplies charge to other devices, etc.) or by any x to confirm that the 15 pieces are (or have been) self-devices Coupling. Those skilled in the art will understand that 'this determination can be made regardless of which device (also 卩 卩 'second or third) is depleted or when the device is depleted. Pure itching to do 'the power from the lowest priority material to the highest priority material is suspended, 7 to prevent the device from being lightly connected to medium priority, the device is charged, and the microcontroller stops all communication to and from the lowest priority More convenient. In step 1210, the second device is self-installed. Depletion, and the process continues in Figure 13. Step 1302 illustrates the processing direction that can be determined in response to which depletion of the second device. The first device is decoupled from the medium priority, step 13〇 2 is followed by step 1304. In step 1304, the microcontroller can determine that the second device has been from a medium priority 埠α. In response to this determination, the micro-control H will recognize the unique device coupled to the device, lightly connected Up to the highest level S, and preferably, the microcontroller powers down all components of the device (eg, booster, regulator, microcontroller, etc.). This is called the power down mode. As mentioned above, Referring to Figure 6, the power down mode can help prevent power consumption from being dissipated to the highest priority device. However, as noted above, in some alternative embodiments, the device may not automatically enter 128157.doc • 47· 1373924 into power down mode (e.g., when the device includes a battery, etc.). In step 1306, the third device n is lighted down from the device's privilege level, and in step (four), the device remains in the power down mode. 1302, self-installed 詈 红 red + you, &set; The second device can be decoupled from the highest priority. When the second device is self-suspended, the priority is 埠 (for example, 埠 206) to lighten. 'The process proceeds to step ΐ3 after step (10). Hey.

埠=驟1310中’微控制器確定第二器件已自最高優先級 埠去輕,且可停止與最高優先級埠之所有通信。在預^ 件重新輕接至最高優先級埠之情況下(例如,參見圖8所二 之步驟814),微控制器亦可減少正向最高優先級埠提供之 電力(例如,藉由調節由升壓器供應之電力)。 在步驟1312中,使第三器件自裝置之最低優先級蜂去 耦。作為回應,該過程移至步驟1314,且裝置進入斷電模 式。 、 *返回步驟1206,自裝置去輕之第一器件可係自裝置之中 等優先級埠去耦。當第一器件(例如’器件21〇)係自中等優 先級埤'去耗時’步驟1206之後為步驟1212。 在步驟1212中,微控制器可確定不再有器件耦接至中等 優先級埠。在步驟1212中,回應於該確定,微控制器將升 壓器(例如,升壓器240)斷電,並中止至及自中等優先級埠 之通信。舉例而言,可切換資訊開關(例如,圖2所示之開 關220)以將最低優先級埠與最高優先級埠耦接。 在步驟1214中,使第二器件自裝置去耦,且該過程進行 至圖14。步驟1214之後的步驟14〇2說明可基於第二器件自 128157.doc • 48· (S )埠=Step 1310' The microcontroller determines that the second device has been lighted from the highest priority and can stop all communications with the highest priority. In the event that the pre-wire is re-wired to the highest priority (see, for example, step 814 of Figure 8), the microcontroller can also reduce the power provided by the highest priority (eg, by adjusting) The power supplied by the booster). In step 1312, the third device is decoupled from the lowest priority bee of the device. In response, the process moves to step 1314 and the device enters a power down mode. , * Returning to step 1206, the first device from the device can be de-coupled from the priority device. Step 1212 is followed by a first device (e.g., 'device 21') from a medium priority 去 'depletion time' step 1206. In step 1212, the microcontroller can determine that no more devices are coupled to the medium priority. In step 1212, in response to the determination, the microcontroller powers down the booster (e.g., booster 240) and suspends communication to and from the medium priority. For example, an information switch (e.g., switch 220 shown in Figure 2) can be switched to couple the lowest priority 埠 to the highest priority 埠. In step 1214, the second device is decoupled from the device and the process proceeds to Figure 14. Step 14 〇 2 after step 1214 illustrates that it can be based on the second device from 128157.doc • 48· (S )

a j I 哪一崞去輕而確定之該過程之下-步驟e 器件係自最低優先級槔去麵時該過程進行至步 ^ 1404 ’在步驟14G4中’微控制器確定祕至裝置之唯-益件係輕接至最高優先級槔,且裝置進入斷電模式。 • · ❹驟1406令’將第三器件自裝置之最高優先級槔移 除。在步驟1408中,在無器件輕接至裝置之情況下,該裝 置保持處於斷電模式。 • 返回步驟1402’自裝置去賴之第二器件可為揭接至最高 先及蟑之器件,且該過程進行至步驟1410。當第二器件 自最高優先級埠去耦時,微控制器確定耦接至裝置之唯 :态件係耦接至最低優先級埠。在步驟1410中,由微控制 益中止與最高優先級埠之通信。微控制器亦可指示調節器 調節提供至最高優先級埠之電力。 步驟1412中’使第二II件自裝置之最低優先級璋去 耗。在步驟1414中,在無器件搞接至裝置之情況下,裝置 鲁 可保持處於斷電模式。 古返回步驟1206’自裝置去輕之第一器件可係自裝置之最 同優先級埠去耗。當第-器件(例如,器件212)係自最高優 先級埠去耦時,步驟12〇6之後為步驟1216。 ·. 回應於第—器件自最高優先級料輕,微控制器可確定 不再有器件輕接至最高優先級蜂。在步則川中中止與 最门優先級蜂之通信。在步驟1 2 i 6中,微控制器亦可指示 調節器調節提供至最高優先級槔之電力。 ’、 在^驟1218中,使第二器件自裝置去轉且該過程進行 128157.doc -49- 至圖】5。步驟1218之後的步驟15〇2說明可基於第二器件自 哪-痒去輕而確定之該過程之下一步驟。 Μ二H㈣自最低優錢埠去㈣,微”器既而可 疋麵接至裝置之唯-器件係麵接至中等優先級埠。在一 些實施财’該過程進行至步騾〗504。在步驟〗5〇4卜不 再向令等優先級埠提供電力,且微控制器中止與最低優先 級埠之通信路徑。 在步驟15G6中’自裝置之中等優先級蟑移除第三器件。 在步驟1508中’在無器件搞接至裝置之情況下,裝置保持 處於斷電模式。 返回步驟15G2,自裝置去耦之第二器件可為耗接至中等 優先級蟑之器件。當第二器件係自裝置之中等優先級淳去 ㈣’微㈣器確定仍純至裝置之唯1件軸接至最 低優先、及埠。在一些實施例中,該過程進行至步驟〇。 在步驟1510中,中止與令等優先級璋之通信。微控制器 亦可指示升壓器斷電。 在v驟1512中,使第三器件自裝置之最低優先級埠去 耗。在步驟15 14中’在無器件柄接至裝置之情況下,該裝 置可保持處於斷電模式。 熟習此項技術者將瞭解,可在不背離本發明之精神之情 况下修改本文描述之過程。舉例而言,本文描述之此等步 驟中之任-者可包括(經由使用者介面,諸如顯示幕、咖 等)指不:步驟(成功或不成功地)完成、器件正確耦接至骏 置、器件在充電、在每一步驟期間出現何情況(例如,對 128157.doc -50· 1373924 於使用者、對於器件等之情況)等。作為另一實例本文 描述之過程可經修改並應用於不包括本文描述之方法所提 及之裝置的所有組件之裝置(例如,當在裝置中不包括升 愿器時,該過程將不啟動升虔器,等等共同建立本文 描述之過程之方法亦可經修改以應用於(例如)包括額外組 件或功能性(例如,無線接收器/發射器、相對於埠區分号 件優先級之能力等)之裝置。作為另一實例,可在替代實 施例中重新排列步驟之次序。當器件輕接至要求來自組件 (例如’琿204)之電力(例如)首先被調節且接著被升塵之裝 置時,該電力可以此事件次序加以處理。 熟習此項技術者亦將理解’在替代實施例中,較佳過程 中之步驟(其中之許多步驟在本文描述為本質上為自動的) 可能,要使用者互動。舉例而言,除非使用者首先授權裝 置或器件開始使對器件充電或自器件充電(例如,經由使 用者介面,藉由與輕接至裝置之器件中之一者介接等)更 加便利,否則裝置不可如此操作。 【圖式簡單說明】 圖1展示併有本發明之說明性系統; 圖2展示根據本發明之電路之說明性實施例的簡化示音 性方塊圖; &quot; 圖3展示根據本發明之電路的說明性替代實施例之簡化 示意性方塊圖; 圖4展示圖2及圖3所示類型之電路的說明性操作模式的 簡化流程圖; 128157.doc 1373924 圖5至圖7展示併有本發明之說明性系統;及 圖8至圖15展示圖2所示類型的電路之說明性操作模式的 簡化流程圖。 【主要元件符號說明】Aj I Which is lighter and deterministic under the process - Step e The device proceeds from the lowest priority 槔 to the face when the process proceeds to step ^ 1404 'In step 14G4' the microcontroller determines the secret to the device only - The benefit piece is lightly connected to the highest priority 槔 and the unit enters the power down mode. • • Step 1406 Order 'Remove the third device from the highest priority of the device. In step 1408, the device remains in the power down mode without the device being lightly coupled to the device. • Returning to step 1402', the second device from the device can be removed to the highest level device, and the process proceeds to step 1410. When the second device is decoupled from the highest priority, the microcontroller determines that the state device coupled to the device is coupled to the lowest priority. In step 1410, communication with the highest priority is suspended by the micro-control. The microcontroller can also instruct the regulator to adjust the power supplied to the highest priority. In step 1412, the second priority is depleted from the lowest priority of the device. In step 1414, the device can remain in the power down mode without the device being connected to the device. The ancient return step 1206' of the first device from the device can be based on the highest priority of the device. When the first device (e.g., device 212) is decoupled from the highest priority, step 12A is followed by step 1216. In response to the first device being lighter from the highest priority, the microcontroller can determine that no more devices are tapped to the highest priority bee. In the step of the river, the communication with the most priority bee is suspended. In step 1 2 i 6 , the microcontroller can also instruct the regulator to adjust the power supplied to the highest priority. In step 1218, the second device is rotated from the device and the process proceeds to 128157.doc -49- to Figure 5. Step 15 之后 2 following step 1218 illustrates a step below the process that can be determined based on which second device is itch-light. Μ二H(四) From the lowest excellent money (4), the micro-device can be connected to the device-only device to the medium priority 埠. In some implementations, the process proceeds to step 504. 〇5〇4Bu no longer provides power to the priority 埠, and the microcontroller suspends the communication path with the lowest priority 。. In step 15G6, the priority device 自 removes the third device from the device. In 1508, the device remains in the power down mode when no device is connected to the device. Returning to step 15G2, the second device decoupled from the device can be a device that is drained to a medium priority. When the second device is The priority is removed from the device (4) The 'micro' device determines that the only one axis of the device is connected to the lowest priority, and 埠. In some embodiments, the process proceeds to step 〇. In step 1510, the process is aborted. The microcontroller can also indicate that the booster is powered down. In step 1512, the third device is depleted from the lowest priority of the device. In step 15 14 'in the no device In case the handle is connected to the device, the device can be protected It is understood that those skilled in the art will be able to modify the processes described herein without departing from the spirit of the invention. For example, any of the steps described herein may include (via User interface, such as display screens, coffee, etc.) means no steps (successful or unsuccessful), the device is properly coupled to the device, the device is charging, what happens during each step (eg, for 128157. Doc -50· 1373924 for users, for devices, etc.), etc. As another example, the processes described herein can be modified and applied to devices that do not include all of the components of the devices mentioned herein. When the lifter is not included in the device, the process will not activate the booster, and the methods of collectively establishing the processes described herein may also be modified to apply, for example, to additional components or functionality (eg, wireless). A device of a receiver/transmitter, with respect to the ability to prioritize the numbering, etc.) As another example, the order of the steps may be rearranged in alternative embodiments. When the device is lightly connected to a device that requires power from a component (eg, '珲204) to be first adjusted and then subsequently dusted, the power can be processed in this sequence of events. Those skilled in the art will also understand that In an embodiment, the steps in the preferred process, many of which are described herein as being automatic in nature, may involve user interaction. For example, unless the user first authorizes the device or device to begin charging the device or It is more convenient to charge the device (for example, through a user interface, by interfacing with one of the devices that are lightly connected to the device, etc.), otherwise the device cannot operate as such. [Simplified Schematic] FIG. 1 shows the present invention. FIG. 2 shows a simplified schematic block diagram of an illustrative embodiment of a circuit in accordance with the present invention; FIG. 3 shows a simplified schematic block diagram of an illustrative alternative embodiment of a circuit in accordance with the present invention; 4 shows a simplified flow chart of an illustrative mode of operation of the circuit of the type shown in Figures 2 and 3; 128157.doc 1373924 Figures 5 to 7 show and illustrate the invention System; and FIG. 8 to FIG. 15 shows a simplified flow chart of the type shown in FIG. 2 is an illustrative mode of operation of the circuit. [Main component symbol description]

100 對接站 102 iMac 104 蜂巢式電話 106 無線耳機 200 裝置 202 埠 204 埠 206 埠 208 器件 210 器件 212 器件 214 微控制器 216 線路 218 線路 220 開關 222 輸入端 224 輸出端 226 輸出端 228 開關 230 線路 128157.doc •52- 1373924100 docking station 102 iMac 104 cellular telephone 106 wireless headset 200 device 202 埠 204 埠 206 埠 208 device 210 device 212 device 214 microcontroller 216 line 218 line 220 switch 222 input 224 output 226 output 228 switch 230 line 128157 .doc •52- 1373924

232 234 236 238 240 242 300 302 304 306 308 500 502 600 602 604 700 線路 線路 輸出端 線路 升壓器 調節器 裝置 開關 輸入端 輸出端 輸出端 對接器件 對接器件 電纜 電纜 電路 蜂巢式電話 128157.doc •53·232 234 236 238 240 242 300 302 304 306 308 500 502 600 602 604 700 Line Line Output Line Booster Regulator Device Switch Input Output Terminal Docking Device Docking Device Cable Cable Circuit Honeycomb Telephone 128157.doc •53 ·

Claims (1)

w年4月奶日修正替換頁 申請專利範圍: 第097100438號專利申請案 中文申請專利範圍替換本(丨〇1年4月) 種促使對-第-電池供電電氣器件之充電更加便利之 方法,其包含: 將該第一電池供電電氣器件與一第二電池供電電氣器 件電耦接在-起,確定該第一器件是否係根據一藍芽協 定與該第二器件配對;及 回應於確疋該第一器件係與該第二器件配對自該第二 器件對該第一器件進行充電。 — 如睛求項1之方法,甘、杜 其進一步包含作為一蜂巢式電話來 才呆作該第二器件。 如請求項1之方法 音頻信號。 4 ♦如請求項1 $ t、土 ^ , ’其中該電耦接包含將該第二器件實 體連接至-3〇接腳連接器。 貫 5.如睛求項丨之方法,其一 之使用去 進步包含以一增強該第二器件 之使用者之方式來操作該第一器件。 6·如請求項1 $古、土 二器件之間二t 一步包含使該第-器件與該第 7… 一傳送更加便利。 如清未項1之方法,其進-步包含: 將—第三電氣器件電耦接至 件;及 至該第一器件及該第二器 自。亥第三器件對該第一器件及 8.如請求項μ第一器件進行充電。 方法,其進一步包 三器件&lt; Μ M 匕3使忒第二器件與該第 間的貧訊之-傳送更加便利。 2. 3, 其進一步包含藉由該第二器件播放 128157-I010430.doc 叫年夺月知曰修正替換買 9·如請求項7之方法,其進-步包含: 使該第一器件與該第三器件之間的資訊之一傳送更加 便利〇 10·如明求項7之方法,其中該將該第三器件電耦接至該第 器件及該第二器件包含將該第三器件連接至一 USB連 接器。 種促使對-第一電池供電電氣器件之充電更加便利之 裝置’其包含: 第一埠’其將該第一電池供電電氣器件電耦接至該 裝置; 第一埠,其將一第二電池供電電氣器件電耦接至該 j置確A該第—器件是否係根據一藍芽協定與該第二 Is件配對;及 微控制器’其回應於確定該第一器件與該第 配對’使自該第 琴 ' 乐一器件經由該裝置至該第一器 之一傳送更加便利。 12. 13. 14. 如請求項11之裝置,i中砵笛_ ,^ .. ,、 Μ第—15件為一蜂巢式電話》 如明求項11之裝置’其中該第- ,^ /弟一盗件為一媒體播放器。 如明求項11之裝置,其中第_ 器。 罘一 15件為一 30接腳連接 15. 如請求独之裝置,其巾該帛— -起使用之無線耳機。 乂、蜂巢式電”, 16. 如請求仙之裝置,其中該微控 第二器件之Μβ σ使e亥苐一器件與寫 15件之間的資訊之一傳送更加便利。 I28I57-10I0430.doc 崎么月如曰修正雜頁 17.如請求項11之裝置,其進一步包含: 第一埠,其將一第三電氣器件電耦接至該裝置及, 其中 該微控制器使自該第三器件經由該裝置至該第一器件 及該第二器件之電力之一傳送更加便利。 18.如:求項17之裝置,其中該微控制器使該第二器件與該 第三器件之間的資訊之一傳送更加便利。 B,如請求項17之裝置,其中該微控制器使該第一器件與該 第二器件之間的資訊之一傳送更加便利。 2〇.如請求項17之裝置,其中該第三器件為一將該裝置輕接 至一電腦之USB電纜。 21. -種促使對至少—電池供電電氣器件之充電更加便利之 方法,該方法利用一包含一第一埠、一第二埠、一第三 皡、一開關、-升麼器及-調節器之-裝置,該開關: 有第一、第二及第三輸入端及一耦接至該第二埠之一輸 出端,其中該第一輸入端鶴接至該第三璋,該升壓器麵 接至該第二輸入端及該第一埠’及該調節器耦接至該第 三埠、該升壓器及該第三輸入端,該方法包含: 確定-第-器件、-第二器件或一第三器件是否個別 電耦接至該第一、第二及第三埠; 當該第二器件確定係耦接至該第二埠時,為該第二器 件選擇至少兩種通訊模式中之一種;及 選擇性地促進從該第三璋至該第二蟑或從該第一槔至 該第二料力傳送基於較何器件係輕接及該所選擇之 128157-1010430.doc -3- U/J924 卜㈣如日修正替叫 通訊模式,其中選擇性地促進電力傳送包含: 虽僅有該第三及第二器件係耦接至其個別之第三及 第二槔時從該第三埠至該第二埠電力傳送;或 r 备僅有該第一及第二器件係耦接至其第一及第二埠 時,從該第一埠至該第二槔傳送電力’其中該第一埠 提供之電力^號之一電壓等級係基於該所選擇的通 訊模式而控制。 22. 23. 24. 25. 如請求項21之方法,該方法進一步包含: 回應於該第二器件純至—高優先級 件指派-高優先級。 第-器 如請求項21之方法,該方法進一步包含: 回應於該第一器件耦接至一中等優先級埠 器件指派一中等優先級。 如請求項21之方法,該方法進一步包含· 回應於將該第二器件識別為一高 二器件指派一高優先級。 向句 如咕求項21之方法,該方法進一步包含: 回應於將該第-器件識別為一中等優先級器件,向令 第一器件指派一中等優先級。 向該第April, April, milk day, correction, replacement page, application for patent scope: No. 097100438, patent application, Chinese patent application, replacement of this patent (丨〇1, April), a method for facilitating the charging of the -th battery-powered electrical device, The method includes: electrically coupling the first battery-powered electrical device to a second battery-powered electrical device, determining whether the first device is paired with the second device according to a Bluetooth protocol; and responding to confirmation The first device is paired with the second device to charge the first device from the second device. — In the case of the method of claim 1, Gan and Du are further included as a cellular phone to stay in the second device. The method of claim 1 is an audio signal. 4 ♦ As claimed in claim 1 $ t, soil ^ , ' where the electrical coupling comprises connecting the second device body to the -3〇 pin connector. 5. The method of using the method of grading, wherein the use of the method comprises operating the first device in a manner that enhances the user of the second device. 6. If the request item 1 $ ancient, soil two devices between the two steps include the first device and the seventh. In the method of claim 1, the method further comprises: electrically coupling the third electrical device to the device; and to the first device and the second device. The third device charges the first device and 8. the first device as claimed. The method further includes the third device &lt; Μ M 匕 3 to facilitate the transmission of the second device and the intermediate poor communication. 2. 3, further comprising the method of playing the 128157-I010430.doc by the second device, replacing the method of claim 9, and the method of claim 7, the step further comprising: causing the first device to The method of claim 7, wherein the method of electrically coupling the third device to the first device and the second device comprises connecting the third device to A USB connector. A device that facilitates charging of a first battery-powered electrical device's includes: a first device that electrically couples the first battery-powered electrical device to the device; a first port that will have a second battery The power supply electrical device is electrically coupled to the device to determine whether the first device is paired with the second Is device according to a Bluetooth protocol; and the microcontroller 'in response to determining that the first device is paired with the first device It is more convenient to transfer from the device to the first device via the device. 12. 13. 14. If the device of claim 11 is used, i 砵 _ , ^ .. , Μ — - 15 is a cellular phone. If the device of the item 11 is the '-, ^ / A thief is a media player. The device of claim 11, wherein the _th device. 1515 is a 30-pin connection. 15. If you request a stand-alone device, the towel should be used.乂, honeycomb type electric power, 16. If the device is requested, the Μβ σ of the second device of the micro control makes it convenient to transmit one of the information between the device and the writing device. I28I57-10I0430.doc The apparatus of claim 11, further comprising: a first port electrically coupling a third electrical device to the device and wherein the microcontroller is The device is further facilitated by one of the power of the device to the first device and the second device. 18. The device of claim 17, wherein the microcontroller is between the second device and the third device A transmission of information is more convenient. B. The apparatus of claim 17, wherein the microcontroller facilitates transmission of one of the information between the first device and the second device. The third device is a USB cable for connecting the device to a computer. 21. A method for facilitating charging of at least a battery-powered electrical device, the method utilizing a first Second, third, and open The device has a first, a second and a third input end and a first output end coupled to the output terminal of the second port, wherein the first input end is connected to The third port, the booster is connected to the second input end and the first port and the regulator is coupled to the third port, the booster, and the third input. The method includes: Determining whether the first device, the second device, or the third device are individually electrically coupled to the first, second, and third turns; when the second device is determined to be coupled to the second turn, The second device selects one of the at least two communication modes; and selectively facilitates light transfer from the third turn to the second turn or from the first turn to the second load based on which device The selected 128157-1010430.doc -3- U/J924 (4) modified the call communication mode as follows, wherein selectively promoting power transfer includes: although only the third and second devices are coupled to their individual The third and second 从 time power transmission from the third 埠 to the second ;; or r only the first and second device systems When coupled to the first and second turns thereof, the voltage level from the first turn to the second turn transmits power 'one of the powers provided by the first turn based on the selected communication mode. 22. 23. 24. 25. The method of claim 21, the method further comprising: responding to the second device pure to high priority component assignment - high priority. The first device is the method of claim 21, The method further includes: responsive to the first device being coupled to a medium priority device, assigning a medium priority. As in the method of claim 21, the method further comprises: responsive to identifying the second device as a high second device assignment A high priority. The method of claim 21, the method further comprising: responsive to identifying the first device as a medium priority device, assigning the first device a medium priority. To the first 26. 如請求項21之方法 ’其進一步包含: 將一第三器件電耦接至該第三埠; 向該第三器件指派 基於指派至該第一 該等優先級來自該第 一低優先級;及 器件、該第二器件及該第三器件之 二器件對該第一器件及該第二器件 128157-1010430.doc • 4 - 1373924 丨。/年么月知El修正替換頁 進行充電。 27. 如請求項21之方法,該方法進一步包含: • 回應於該第三器件耦接至一低優先級埠,向該第三器 ^ 件指派一低優先級。 28. 如請求項21之方法,該方法進一步包含: 回應於將該第三器件識別為一低優先級器件,向該第 二器件指派一低優先級。 • 29.如請求項28之方法,其進一步包含將該第三器件識別為 —可接取一連續電源之器件。 3〇·如請求項28之方法,其進一步包含將該第三器件識別為 —電腦。 3 1. —種促使對至少一電池供電電氣器件之充電更加便利之 裝置,其包含: 一第一淳’其將一第一電池供電電氣器件電耦接至該 裝置; ® 一第二埠’其將一第二電池供電電氣器件電耦接至該 裝置; 一第二埠’其可操作以當一第三器件係電耦接至該裝 置時從該第三器件接收電力,該第三埠耦接至該第一 • 埠; 一開關’其具有第一、第二、及第三輸入端,該第一 輸入端耗接至該第三埠’及一耦接至該第二埠之輸出 端; 一升Μ器’其耦接至該開關之該第二輸入端及該第— 128157-1010430.doc 丄373924 32. 33. 34. 35. 36. 年4月拟日修正替涣·ϋ 埠; 一調節器,其耦接至該第三埠、該升壓器及該開關之 第三輸入端;及 一微控制器,其 確定當該第二器件係耦接至該第二埠;及 回應於確定該第二器件係耦接至該第二埠,選擇該第 —、第二、或第三輸入端基於該第一器件、第三器件、 或該第一及該第三器件兩者是否耦接至其個別之第一及 第三埠,以促進從該第三埠至該第二埠或從該第一埠至 該第二埠之電力傳送更加便利,其中提供至該第二埠之 號之一電壓等級確定該第二器件之一操作模式。 如請求項3丨之裝置,其中該微控制器回應於該第二器件 耦接至被指派一高優先級之該第一埠而向該第二器件指 派一高優先級。 如明求項31之裝置,其中該微控制器回應於該第—器件 耦接至被指派一中等優先級之該第二埠而向該第一器件 指派一中等優先級。 如明求項3 1之裝置,其中該微控制器回應於該微控制器 將該第二器件識別為高優先級器件而向該第二器件指派 一高優先級》 如請求項31之裝置,其中該微控制器回應於該微控制器 將該第一器件識別為一中等優先級器件而向該第—器件 指派一中等優先級。 如請求項31之裝置,其進一步包含: 128157-1010430.doc -6 · 〜年Μ和日修正替換頁 一第三淳,其將一第三電氣器件窀耦接至該裝置,且 其中 該微控制器: 向該第三器件指派一低優先級; 基於指派至該第一器件、該第二器件及該第三器件 之該等優先級而使自該第三器件至該第一器件及該第 二器件之電力之該傳送更加便利。 37 38. 39. 40. 41. 如凊求項3 1之裝置,其中該微控制器回應於該第三器件 耦接至被指派一低優先級之該第三埠而向該第三器件指 派一低優先級。 如請求項31之裝置,其中該微控制器回應於該微控制器 將°玄第二器件識別為一低優先級器件而向該第三器件指 派一低優先級。 如請求項38之裝置,其中該微控制器將該第三器件識別 為一線路供電器件。 如請求項38之裝置,其中該微控制器將該第三器件識別 為一電腦。 一種使用一裝置,該裝置具有一第一埠、—第二埠、一 第三埠、一開關、一升壓器、以及一調節器,該開關具 有第一、第二及第三輸入端,及一耦接至該第二埠之輸 出端,其甲該第一輸入端係耦接至該第三埠,該升壓器 係耦接至該第二輸入端及該第一埠,及該調節器係耦接 至該第三埠、該升壓器及該第三輸入端之方法,該方法 包含: 128157-1010430.doc 叫%月如日修正替換頁 確定一每巢式電話、一無線耳機、或一電腦是否個別 電耦接至第一、第二、及第三埠; 當該無線耳機係確定耦接至該第二埠時,替該無線耳 機選擇至少兩種通訊模式中之一種;及 基於確定何器件係耦接及該所選擇之通訊模式,選擇 性地促進從該第三埠至該第二埠或從該第一埠至該第二 埠電力傳送’其中選擇性地促進電力傳送包含·· 當僅有該電腦及該無線耳機係耦接至其個別之第三及 第二埠時,從該第三埠至該第二埠傳送電力;或 當僅有該蜂巢式電話及該無線耳機係耦接至其第一及 第二埠時,從該第一埠至該第二埠傳送電力,其中該第 一埠提供之一電力信號之一電壓等級係基於所選擇之通 訊模式所控制。 42. —種用於對一無線耳機充電之裝置,其包含: 一第一埠,其電耦接一蜂巢式電話至該裝置; 一第二埠,其電耦接一無線耳機至該裝置; 第二璋,其彳呆作以當一電腦係電耦接至該裝置時從 該電腦接收電力,該第三埠耦接至該第一埠; 一開關,其具有第一 '第二及第三輸入端,該第一輸 入端耗接至該第三槔’及_純至該第二埠之輸出端; 一升壓器,其耦接至該該開關之第二輸入端及該第一 埠; -調節器,絲接至該第三埠、該㈣器及該開關之 該第三輸入端;及 I28157-I010430.doc 7/年么月务日修正替換頁 —微控制器,其 選擇該第 電腦、或 確疋田該無線耳機係連接至該第二痒;及 —回應於4定該無線耳機係連接至該第二璋 蜂巢,=端基於該蜂巢式電話、电觸、爲 埠,:心、電腦兩者是否輕接至其個別之第一及第三 二進從該第三蟑至該第二蟑或從該第—槔至該第 力傳运更加便利,其中提供至該第二埠之一信 &amp;之-電㈣級確㈣無線耳機之—操作模式。 4乂 —種電纜,其包含: —第一連接器; —第二連接器;及 連接n,其至少_部分具有磁性,經組態以與 四連接器以磁力耦接。 器電耦接至該第二 44·如請求項43之電境,其中該第-連接 連接器。 鐵’其令該第一連接器電耦接至該第三 45.如請求項43之電 連接器 器電耦接至該第三 46.如請求項43之電魔,其中該第二連接 連接器。 47·如明求項43之電徵,其中該第三連接ϋ為-4接腳連接 清求項43之電境,其中該第二連接器為- 30接腳連接 器。 49.如請求項43之電境,其中該第-連接器為-USB埠。 128157-1010430.doc -9- 1373924 μ年4月知日修正替換頁 50. 如請求項49之電纜,其中該USB埠為公USB連接器。 51. 如請求項43之電纜,其進一步包含一電耦接至該第一連 接器、該第二連接器及該第三連接器中之至少一者的微 控制器。 52· -種對接裝置’其具有一底面1面及四個側面,該對 接裝置進一步包含: 一在該四個側面中之一者中的第一連接器; 一在該頂面中之第二連接器;及 一第三連接器’其至少-部分具有磁性’經組態以盥 一第四連接器以磁力輕接’其中該第三連接器處於該頂 面中。 53. 如請求項52之對接裝置 第二連接器。 54. 如請求項52之對接裝置 第三連接器。 55·如請求項52之對接裝置 第三連接器。 56.如請求項52之對接裝置 連接器。 其中該第一連接器電耦接至該 其中該第一連接器電耦接至該 其中該第二連接器電耦接至該 ”中a玄第二連接器為一 *接腳 57.如請求項52之對接裝置 連接器。 其中1亥第二連接器為一 30接腳 5 8.如請求項52之對接裝置, 淳。 其中該第一連接器為一 USB 其中該USB埠為—母USB連接 128157-1010430.doc -10· 1 9.如請求項58之對接裝置 137392426. The method of claim 21, further comprising: electrically coupling a third device to the third device; assigning to the third device based on the assignment to the first priority from the first low priority And the device, the second device, and the second device are two devices of the first device and the second device 128157-1010430.doc • 4 - 1373924. / Year of the month know El correction replacement page to charge. 27. The method of claim 21, the method further comprising: • assigning a low priority to the third device in response to the third device being coupled to a low priority. 28. The method of claim 21, the method further comprising: responsive to identifying the third device as a low priority device, assigning the second device a low priority. 29. The method of claim 28, further comprising identifying the third device as being - a device that can receive a continuous power source. 3. The method of claim 28, further comprising identifying the third device as a computer. 3 1. A device that facilitates charging of at least one battery-powered electrical device, comprising: a first device that electrically couples a first battery-powered electrical device to the device; A second battery-powered electrical device is electrically coupled to the device; a second device operative to receive power from the third device when the third device is electrically coupled to the device, the third device The first switch receives a first, a second, and a third input, and the first input is coupled to the third port and an output coupled to the second port a second riser 'coupled to the second input of the switch and the first - 128157-1010430.doc 丄 373924 32. 33. 34. 35. 36. a regulator coupled to the third port, the booster, and a third input of the switch; and a microcontroller that determines when the second device is coupled to the second port; And in response to determining that the second device is coupled to the second UI, selecting the first, second, or third input The input is based on whether the first device, the third device, or both the first and third devices are coupled to their respective first and third turns to facilitate from the third turn to the second turn or Power transfer from the first port to the second port is more convenient, wherein a voltage level provided to one of the second ports determines an operational mode of the second device. The device of claim 3, wherein the microcontroller assigns a high priority to the second device in response to the second device being coupled to the first one assigned a high priority. The device of claim 31, wherein the microcontroller assigns a medium priority to the first device in response to the first device being coupled to the second one assigned a medium priority. The device of claim 3, wherein the microcontroller responds to the microcontroller identifying the second device as a high priority device and assigning a second priority to the second device, such as the device of claim 31, The microcontroller assigns a medium priority to the first device in response to the microcontroller identifying the first device as a medium priority device. The device of claim 31, further comprising: 128157-1010430.doc -6 - Μ Μ 日 日 日 替换 替换 替换 替换 修正 修正 修正 修正 淳 淳 淳 淳 淳 淳 淳 淳 淳 淳 淳 淳 淳 淳 淳 淳a controller: assigning a low priority to the third device; from the third device to the first device and based on the priorities assigned to the first device, the second device, and the third device This transfer of power of the second device is more convenient. 37. The device of claim 3, wherein the microcontroller is responsive to the third device being coupled to the third device assigned a low priority to assign to the third device A low priority. The apparatus of claim 31, wherein the microcontroller, in response to the microcontroller identifying the second device as a low priority device, assigns a low priority to the third device. The device of claim 38, wherein the microcontroller identifies the third device as a line powered device. The device of claim 38, wherein the microcontroller identifies the third device as a computer. A device having a first port, a second port, a third port, a switch, a booster, and a regulator having first, second, and third inputs, And the first input end is coupled to the third port, the booster is coupled to the second input end and the first port, and the The method is coupled to the third port, the booster, and the third input, and the method includes: 128157-1010430.doc, the month is corrected, the replacement page determines a nested phone, and a wireless Whether the earphone or a computer is electrically coupled to the first, second, and third ports; when the wireless earphone is determined to be coupled to the second device, selecting one of at least two communication modes for the wireless headset And selectively promoting the transfer of power from the third turn to the second turn or from the first turn to the second turn based on determining which device is coupled and the selected communication mode Power transmission includes ·· when only the computer and the wireless headset are coupled Transferring power from the third pass to the second turn to the individual third and second turns; or when only the cellular phone and the wireless headset are coupled to the first and second turns thereof, Power is transmitted from the first port to the second port, wherein a voltage level of one of the power signals provided by the first port is controlled based on the selected communication mode. 42. A device for charging a wireless headset, comprising: a first port electrically coupled to a cellular phone to the device; and a second port electrically coupled to the wireless headset to the device; Secondly, the device is configured to receive power from the computer when the computer is electrically coupled to the device, the third port being coupled to the first port; a switch having the first 'second and second a third input terminal, the first input terminal is connected to the third port and the output terminal is pure to the second port; a booster coupled to the second input end of the switch and the first调节; - regulator, wire connected to the third port, the (four) device and the third input of the switch; and I28157-I010430.doc 7/year of the month to correct the replacement page - the microcontroller, the choice The second computer, or indeed, the wireless headset is connected to the second itching; and - in response to the wireless headset being connected to the second antenna, the terminal is based on the cellular phone, the electrical contact, : Whether the heart and the computer are lightly connected to their individual first and third binary from the third to the second From the second - water pulley to the second force transmission more convenient operation, wherein the second port is provided to one of the channel &amp; - The power stage (iv) (iv) determining a wireless headset - A mode of operation. A cable comprising: - a first connector; - a second connector; and a connection n that is at least partially magnetic and configured to be magnetically coupled to the four connectors. The device is electrically coupled to the second environment of claim 44, wherein the first connection connector. Iron (which electrically couples the first connector to the third 45. The electrical connector of claim 43 is electrically coupled to the third 46. The electric magic of claim 43 wherein the second connection is Device. 47. The electrical sign of claim 43, wherein the third port is a 4-pin connection to the interface 43, wherein the second connector is a - 30 pin connector. 49. The electrical environment of claim 43, wherein the first connector is -USB. 128157-1010430.doc -9- 1373924 April 4th Anniversary Correction Replacement Page 50. The cable of claim 49, wherein the USB port is a male USB connector. 51. The cable of claim 43, further comprising a microcontroller electrically coupled to at least one of the first connector, the second connector, and the third connector. 52. - a docking device having a bottom surface and four sides, the docking device further comprising: a first connector in one of the four sides; a second in the top surface a connector; and a third connector 'having at least - partially magnetically' configured to electrically connect the fourth connector with a magnetic force 'where the third connector is in the top surface. 53. The docking device second connector of claim 52. 54. The docking device third connector of claim 52. 55. The docking device of claim 52, the third connector. 56. The docking device connector of claim 52. The first connector is electrically coupled to the first connector, and the second connector is electrically coupled to the middle connector. The second connector is a * pin 57. The docking device connector of item 52. wherein the second connector is a 30-pin 5 8. The docking device of claim 52, wherein the first connector is a USB, wherein the USB port is a female USB Connection 128157-1010430.doc -10· 1 9. Docking device 1373924 as claimed in claim 58 ㈧年么月初日嫌正会接頁 --- 器。 60.如請求項52之對接裝置,其進一步包含一整合至該對接 裝置中且電耦接至該第一連接器、該第二連接器及該第 三連接器甲之至少一者的微控制器。 128157-1010430.doc -11 -(8) At the beginning of the year, the first day of the month will be picked up ---. 60. The docking device of claim 52, further comprising a micro-control integrated into the docking device and electrically coupled to at least one of the first connector, the second connector, and the third connector Device. 128157-1010430.doc -11 -
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